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Daily Archives: May 6, 2023
Australia’s first quantum strategy predicts $6 billion in revenue and … – SmartCompany
Posted: May 6, 2023 at 3:23 pm
Australian Industry and Science Minister Ed Husic. Source: AAP Image/Lukas Coch
Ahead of next weeks budget, the federal government has unveiled its inaugural national quantum strategy. The initiative was announced by Ed Husic, Minister for Industry and Science, on Wednesday.
While Australia has been involved in research into quantum technology for decades, this is the first time that a government strategy has been put in place to support the existing leadership in the space.
This will be a part of the Labor governments National Reconstruction Fund, $1 billion of which was set aside for critical technologies such as quantum.
Quantum technology is a complex topic. But at its core it utilises quantum mechanics the physics of sub-atomic particles. These are the building blocks of nature. Quantum physics looks at and explains the world at this minute scale.
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The ability to study, isolate and control these particles allows for the creation of new technologies and ways for faster medicine development and security infrastructure.
Quantum computing in particular allows for problem solving that isnt possible with older technology.
The consultation and research process for the strategy was led by Australias Chief Scientist, Dr Cathy Foley, with guidance from the National Quantum Advisory Committee.
The aim of the strategy is to utilise quantum technology to create new industries and boost jobs in the sector. According to the federal government, its estimated that quantum-based industries could create 19,400 direct jobs and $5.9 billion in revenue by 2045.
The strategy itself lists five priority areas:
I cant emphasise this enough, quantum technologies will be truly transformative. We are already seeing how quantum sensing equipment is making a huge difference for industry, Ed Husic said during his speech.
In time, quantum computing will unleash incredible computing power that can phenomenally outperform traditional computing.
By pairing a National Quantum Strategy with the National Reconstruction Fund were aiming to turn Australia into a global technology leader, building stronger industry and creating jobs for the future.
The Tech Council of Australia (TCA) which is the home of the Australian Quantum Alliance has welcomed the news.
We have strong foundations to build a globally successful quantum sector right here in Australia we are already home to more than 3% of global quantum startups and are attracting 3.6% of global venture capital investment, well above our 1.6% share of global GDP, TCA CEO, Kate Pounder, said in a statement.
While the announcement is a promising, and long-awaited start, it is just that. Q-CTRL is an Australian quantum computing startup that hopes to see more support and resources for the sector in the long term.
QCTRL is proud to be Australias first venture-capital-backed quantum technology company, one which has grown into a world leader in the industry. Were excited about our continued growth in Australia and our offices around the world, Q-CTRLs Head of government engagement, Charles Burnard, said in an email to SmartCompany.
As Minister Husic has made clear, the release of the Strategy today is the beginning of the journey, not the end. Realising the Strategys full potential will require the whole nations support, close cooperation and coordination at all levels of government, and sustained, meaningful backing for the sector
The TCA is also looking to the future on how to make this successful for Australia.
Our challenge is to now become a leader in commercialisation. Early commercialisation will deliver billions of dollars in economic value and thousands of jobs by 2030 globally and in Australia, while supporting our strategic and national security objectives, Pounder said.
Husic seems to agree with Burnards sentiments about a community and holistic approach to quantum.
Quantum, by its very nature, is a global endeavour. No one country can hope to corner the market, as it were, Husic said.
Only by working together can we unlock quantums full potential.
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Australia's first quantum strategy predicts $6 billion in revenue and ... - SmartCompany
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Nature’s Quantum Secret: Link Discovered Between Photosynthesis … – SciTechDaily
Posted: at 3:23 pm
A University of Chicago study found links at the atomic level between photosynthesis and exciton condensatesa strange state of physics that allows energy to flow frictionlessly through a material. The finding is scientifically intriguing and may suggest new ways to think about designing electronics, the authors said.
University of Chicago scientists hope islands of exciton condensation may point way to new discoveries.
Scientists at the University of Chicago have found a connection between photosynthesis and exciton condensates, a state of physics that allows energy to flow without friction. This surprising finding, typically associated with materials well below room temperature, may inform future electronic design and help unravel complex atomic interactions.
Inside a lab, scientists marvel at a strange state that forms when they cool down atoms to nearly absolute zero. Outside their window, trees gather sunlight and turn them into new leaves. The two seem unrelatedbut a new study from the University of Chicago suggests that these processes arent so different as they might appear on the surface.
The study, published inPRX Energyon April 28, found links at the atomic level between photosynthesis and exciton condensatesa strange state of physics that allows energy to flow frictionlessly through a material. The finding is scientifically intriguing and may suggest new ways to think about designing electronics, the authors said.
As far as we know, these areas have never been connected before, so we found this very compelling and exciting, said study co-author Prof. David Mazziotti.
Mazziottis lab specializes in modelling the complicated interactions of atoms and molecules as they display interesting properties. Theres no way to see these interactions with the naked eye, so computer modeling can give scientists a window intowhythe behavior happensand can also provide a foundation for designing future technology.
In particular, Mazziotti and study co-authors Anna Schouten and LeeAnn Sager-Smith have been modelling what happens at the molecular level when photosynthesis occurs.
When a photon from the sun strikes a leaf, it sparks a change in a specially designed molecule. The energy knocks loose an electron. The electron, and the hole where it once was, can now travel around the leaf, carrying the energy of the sun to another area where it triggers a chemical reaction to make sugars for the plant.
Together, that traveling electron-and-hole-pair is referred to as an exciton. When the team took a birds-eye view and modeled how multiple excitons move around, they noticed something odd. They saw patterns in the paths of the excitons that looked remarkably familiar.
In fact, it looked very much like the behavior in a material that is known as a Bose-Einstein condensate, sometimes known as the fifth state of matter. In this material, excitons can link up into the same quantum statekind of like a set of bells all ringing perfectly in tune. This allows energy to move around the material with zero friction. (These sorts of strange behaviors intrigue scientists because they can be the seeds for remarkable technologyfor example, a similar state called superconductivity is the basis for MRI machines).
They saw patterns in the paths of the excitons that looked remarkably familiar.
According to the models created by Schouten, Sager-Smith and Mazziotti, the excitons in a leaf can sometimes link up in ways similar to exciton condensate behavior.
This was a huge surprise. Exciton condensates haveonlybeen seen when the material is cooled down significantly below room temperature. Itd be kind of like seeing ice cubes forming in a cup of hot coffee.
Photosynthetic light harvesting is taking place in a system that is at room temperature and whats more, its structure is disorderedvery unlike the pristine crystallized materials and cold temperatures that you use to make exciton condensates, explained Schouten.
This effect isnt totalits more akin to islands of condensates forming, the scientists said. But thats still enough to enhance energy transfer in the system, said Sager-Smith. In fact, their models suggest it can as much as double the efficiency.
This opens up some new possibilities for generating synthetic materials for future technology, Mazziotti said. A perfect ideal exciton condensate is sensitive and requires a lot of special conditions, but for realistic applications, its exciting to see something that boosts efficiency but can happen in ambient conditions.
Mazziotti said the finding also plays into a broader approach his team has been exploring for a decade.
The interactions between atoms and molecules in processes like photosynthesis are incredibly complexdifficult even for a supercomputer to handleso scientists have traditionally had to simplify their models in order to get a handle on them. But Mazziotti thinks some parts need to be left in: We think local correlation of electrons are essential to capturing how nature actually works.
The study was partially supported by the National Science Foundations QuBBE Quantum Leap Challenge Institute.
Reference: Exciton-Condensate-Like Amplification of Energy Transport in Light Harvesting by Anna O. Schouten, LeeAnn M. Sager-Smith and David A. Mazziotti, 28 April 2023, PRX Energy.DOI: 10.1103/PRXEnergy.2.023002
Funding: U.S. National Science Foundation, U.S. Department of Energy.
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Two ERC proof of concept grants for the University of Bonn – EurekAlert
Posted: at 3:23 pm
image:from the Institute for Innate Immunity at the University Hospital Bonn. view more
Credit: Photo: Bruna Guerra Photography
Two researchers from the University of Bonn have been awarded a Proof of Concept Grant by the European Research Council (ERC) as part of a program designed to help researchers translate their ideas from previous ERC projects into commercial applications. Biologist Prof. Dr. Bernardo S. Franklin from the University Hospital Bonn and physicist Prof. Dr. Simon Stellmer will thus each receive 150,000 over a period of around one year.
Prof. Dr. Bernardo S. Franklin from the Institute for Innate Immunity and the ImmunoSensation2 Cluster of Excellence studies hematopoietic stem cells (HSCs), which develop into different blood cells through processes of cell division and differentiation. Bouts of inflammation that a person experiences as they get older will damage these stem cells, Bernardo S. Franklin says. Processes like this cause hyperactivation of the innate immune system in the elderly. This phenomenon, known as inflammaging, increases the risk of conditions including cardiovascular disease, diabetes and cancer, he adds.
Wiping the immune systems harmful memories of inflammation
The project that has now secured ERC funding, which is entitled Nanobodies to prevent hematopoietic stem cell bias and hyper-inflammation (UNBIAS), aims to return HSCs to their original state in order to wipe the immune systems harmful memories of inflammation. The researchers are using customized mini-antibodies known as nanobodies to achieve this. These antibodies, which are very small in relative terms, are taken from the blood of alpacas and can break up the places where inflammation develops.
Back in 2017, Franklin received a much-sought-after Starting Grant from the ERC worth some 1.5 million in funding. The Proof of Concept Grant will now build on this work already done. Our aim is to validate the use of nanobodies to combat inflammaging and license this technology or its applications for industrial partners, Franklin says. He believes that the project has the potential to alleviate the effects of inflammation and thus potentially save countless lives and the economic cost of illness.
Developing precise spinning sensors to measure the Earths rotation
Together with his team, Prof. Dr. Simon Stellmer from the Institute of Physics at the University of Bonn is studying how measuring devices that are already unbelievably accurate can keep on being improved and refined. In the GyroRevolution ERC project, for which they have now secured funding, they want to develop gyroscopes spinning sensors that are extremely precise. Specifically, gyroscopes are lasers with a ring-shaped trajectory that can be used to measure rotation. Geodesists use them to record the rotation of the Earth and detect earthquakes, for example. Even very tiny and extremely slow movements of structures or the soil can also be measured.
Stellmer and his team used technologies borrowed from quantum physics to develop their gyroscopes. High-stability lasers, optic resonators, frequency combs: originally developed for optical atomic clocks, the researchers tools now form the basis for creating improved gyroscopes. The working group is currently exploring several approaches and running several different designs of gyroscope, the largest of which measures 4 m by 4 m and is installed deep in the bowels of the Institute of Physics.
We want to build small yet sturdy spinning sensors that can be fitted inside buildings or sunk into holes, says Simon Stellmer, a member of the Matter and Light for Quantum Computing (ML4Q) Cluster of Excellence and the Matter Transdisciplinary Research Area at the University of Bonn. Earthquakes, climate change, crumbling bridges on the freewaythere are various ways these gyroscopes could be used, all of them highly relevant to society.
Even back when he was working on his ERC Starting Grant project, which secured its funding in 2017, Simon Stellmer was investigating precision measurements of this kind. In this project, he is addressing a very fundamental question: Why does the universe contain matter in the first place? His aim is to answer questions from the world of particle physics using the precision of quantum experiments rather than the high energy of large particle accelerators.
Two Proof of Concept proposals accepted
Were delighted that not one but two proposals from the University of Bonn for ERC Proof of Concept Grants have been accepted, says Sandra Speer, Head of the enaCom Transfer Center at the University of Bonn. The Transfer team at the Faculty of Medicine helped to submit the proposal to the ERC together with enaCom and Research Funding at the University of Bonn in what proved a highly successful collaboration.
Contact:
Prof. Dr. Bernardo S. FranklinInstitute for Innate ImmunityUniversity Hospital BonnPhone +49 228 28751981Email: franklin@uni-bonn.de
Prof. Dr. Simon StellmerInstitute of PhysicsUniversity of BonnPhone +49 228 733720Email: stellmer@uni-bonn.de
Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.
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Stephen Hawking’s final, god’s-eye view of the cosmos ponders the ultimate origin of our universe – The Conversation
Posted: at 3:23 pm
In the publics mind, Stephen Hawking is a giant of 20th century science. He burst onto the popular stage with the 1988 publication of A Brief History of Time, which presented his esoteric ideas of evaporating black holes and the birth of the universe. It was an international bestseller, but given the complexity of its ideas, A Brief History has been called the most unread book of all time.
Hawking continued to explore the fundamental nature of the universe until his death in 2018. In a new book, On The Origin of Time, Belgian physicist Thomas Hertog unravels Hawkings final theory, which focuses upon one of the biggest questions of all just why our universe is the way it is.
Review: On the Origin of Time: Stephen Hawkings Final Theory Thomas Hertog (Penguin Random House)
Hertog is no passive player in this story, having been a student and collaborator of Hawking. He is, instead, an active participant. Intriguingly, as Hertog explains, we are all active participants in Hawkings final theory, shaping the universe by observing it.
In this new book, Hertog tells us that Hawkings final theory tries to address one of the deep mysteries of the universe, something known as the problem of cosmological fine-tuning.
Cosmologists have realised that the more they peer at the underlying nature of the universe (for instance the strengths of fundamental forces and the masses of fundamental particles), the more the cosmos seems tuned for our existence.
If the universe had been born with slightly different values for these fundamental properties, it would be dead and sterile, lacking the complexity and energy essential for life.
For some, the solution to cosmological fine-tuning lies in the multiverse, the idea that our universe is just one of countless others. Our universe, and all the others, crystallise out of a bout of eternal inflation, a super-energetic cosmic expansion. Each individual universe, at birth, is written with its own unique laws of physics. Most of these universes in the multiverse are dead, but our cosmic home won the physics lottery. We, unsurprisingly, find ourselves in a universe that can host life.
However, as Hertog writes in this new book, Hawking dismissed the multiverse and went on the hunt for an alternative solution to cosmic fine-tuning.
To get to this point, Hertog treads some very familiar ground, discussing the history of modern cosmological ideas. This includes the theoretical groundwork of Albert Einstein and Georges Lemaitre, and the observational insights of Edwin Hubble that revealed the expansion of the universe.
Hertog interweaves the story with the development, over the 20th century, of that other great pillar of physics, the strange behaviour in the world of the quantum, where the deterministic world of Isaac Newton, in which things have precise locations at precise times, is replaced by a fuzzy world of probabilities and uncertainties.
Usually we think of quantum mechanics describing the subatomic world, of electrons and atoms, but Hawking was thinking of the entire universe as a quantum system. The tale is brought up to date with the idea of cosmic inflation in the earliest instances of the universe and the surprising discovery of the dominance of dark energy in the closing years of the last century.Hawkings own story is similarly interwoven in the book including his revelation that black holes are not truly black.
Combining Einsteins general theory of relativity, which dictates the space-time curvature of a black hole, with quantum field theory, which describes the strange, ephemeral nature of seemingly empty space, Hawking showed that black holes actually radiate. Through this dribble of energy, black holes steadily evaporate into an eventual nothingness.
But if you are looking for an accurate description of just how Hawkings idea of black hole radiation operates, unfortunately Hertog relies on the same flawed picture of particles popping into existence at the edge of the hole as Hawking presented in A Brief History of Time. A copy of A Brief History of Time featuring a thumbprint of its author at an auction at Christies London in 2018. Neil Hall/AAP
Hertog also tells us that Hawking explored the state of the universe at the very beginning, arguing that at this initial point, at least in terms of general relativity, the density of stuff in the universe must have been infinite, (this idea is formally known as a singularity).
Hawking returned to this question with physicist Jim Hartle in the early 1980s to try and wrap quantum mechanics into the picture. Hartle and Hawking claimed that if you wind the universe back to the beginning, time loses its distinct nature and effectively becomes space. With this no boundary hypothesis, the universe did not have an origin, not at least one we would ever really understand.
Hawkings motivation for disliking the multiverse is a somewhat subtle argument, built on the idea of the anthropic principle, the fact that we should not be surprised to find ourselves in a universe which allows us to be here.
Hertog tells us that we should be, in some sense, typical of the possible observers who could inhabit the universes in the multiverse. But quite what typical means is a complicated topic. Does it mean that other life in other universes should be like life on Earth? Or typical in a more broader sense, that life should be composed of the same elements as us? Typical can be judged on many different criteria. And how will we ever find out how typical we are if we are forever limited to the observations of our one universe?
To posit an alternative solution, Hawkings first step was to upend the approach to understanding the universe.
The goal of modern science has been to unravel the fundamental operations of the universe and use these to predict how physical systems evolve. To do this, we need more than the laws of physics, but we need to know the starting point, the boundary conditions. But for a universe emerging from the strange singular state at its origin, where infinities abound, just what are these boundary conditions, and do they uniquely define the universe we inhabit?
Hertog explains that he and Hawking adopted a different view, a top-down view of the universe. Quantum mechanics is again wrapped into the picture, and the life of the universe is treated as a quantum system, described in terms of possibilities and probabilities.
It is here that Hugh Everett IIIs many-worlds interpretation of quantum mechanics makes its appearance. According to Everett, all of the possible outcomes of a quantum experiment play out in parallel existences, and it is this notion that Hawking applies to the universe.
Within this final theory, as expressed by Hertog, the observer now plays a central role. The fact that we all exist and observe the world around it, means we participate in shaping the universe we appear to inhabit.
Of all of the possible histories of the universe that could potentially exist in a sea of parallel universes, the fact that we are here observing this universe, singles out this universe, with all the others lost in a sea of quantum uncertainty. The situation becomes strangely self-referential.
At this point, the general reader is quite possibly going to be confused. This is, of course, quite a radical notion in understanding the nature of the universe. And, quite frankly, the reader might wonder what separates Hawkings final theory from what some might consider pseudo-scientific ramblings.
The idea that we, as observers, are essential for bringing the universe into being is not a new one, and is often the source of ridicule. Of course, given the scientific weight of the authors, this final theory must be given merit, but whether this hypothesis is a true contender for an accurate description of the life of our universe is hard to judge.
This should not put the reader off. Hertogs easy writing style jumps from topic to topic and provides an overview of the development of modern cosmology and the need for quantum mechanics in understanding the ultimate origins of the universe.
But when the going gets tough and the intricate ideas of Hawkings cosmos are explored, some things are stepped over a little too quickly and a little more time lingering on what might seem straightforward to quantum cosmologists would have been a benefit.
In closing, it is worth pointing out that there are some irritating features to the writing, including the almost hero worship Hawking receives. Clearly given the close relationship between the author and his subject, this is somewhat understandable, but can still be grating.
The text also mixes the philosophy-bashing that appears to be a badge of honour of modern physicists with various philosophical musings that underpin the cosmological and quantum thinking. But given the scope of the topic, and with a mix of anecdotes, quotes and analogies, Hertog provides an intriguing snapshot of our pondering of the ultimate origin of our universe.
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The exciting possibilities of tiny, twisted superconductors – Phys.org
Posted: at 3:23 pm
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Transporting energy is costly. When a current runs through conductive materials, some of the energy is lost due to resistance as particles within the material interactjust notice the warmth from your phone or laptop. This energy loss presents a hurdle to the advancement of many technologies and scientists are searching for ways to make superconductors that eliminate resistance.
Superconductors can also provide a platform for fault-tolerant quantum computing if endowed with topological properties. An example of the latter is the quantum Hall effect where the topology of electrons leads to universal, "quantized," resistance with accuracy up to one part in a billion, which finds uses in meteorology. Unfortunately, the quantum Hall effect requires extremely strong magnetic fields, typically detrimental to superconductivity. This makes the search for topological superconductors a challenging task.
In two new papers in Physical Review Letters and Physical Review B UConn Physicist Pavel Volkov and his colleagues propose how to experimentally manipulate the quantum particles, called quasiparticles, in very thin layers of ordinary superconductors to create topological superconductors by slightly twisting the stacked layers.
Volkov explains there is a lot of research being done on ways to engineer materials by stacking layers of two-dimensional materials together:
"Most famously, this has been done with graphene. Stacking two graphene layers in a particular way results in a lot of interesting new phenomena. Some parallel those in high-temperature superconductors, which was unexpected because, by itself, graphene is not superconducting."
Superconductivity happens when a material conducts current without any resistance or energy loss. Since resistance is a challenge for many technologies, superconducting materials have the potential to revolutionize how we do things, from energy transmission to quantum computing to more efficient MRI machines.
However, endowing superconductors with topological properties is challenging, says Volkov, and as of now, there are no materials that can reliably perform as topological superconductors.
The researchers theorize that there is an intricate relation between what happens inside the twisted superconductor layers and a current applied between them. Volkov says the application of a current makes the quasiparticles in the superconductor behave as if they were in a topological superconductor.
"The twist is essentially determining the properties, and funnily enough, it gives you some very unexpected properties. We thought about applying twisting to materials that have a peculiar form of superconductivity called nodal superconductivity," says Volkov.
"Fortunately for us, such superconductors exist and, for example, the cuprate high-temperature superconductors are nodal superconductors. What we claim is that if you apply a current between two twisted layers of such superconductors, it becomes a topological superconductor."
The proposal for current-induced topological superconductivity is, in principle, applicable at any twist angle, Volkov explains, and there is a wide range of angles that optimize the characteristics, which is unlike other materials studied so far.
"This is important because, for example, in twisted bilayer graphene, observation of interesting new phenomena requires to align the two layers to 1.1 degrees and deviations by .1 degrees are strongly detrimental. That means that one is required to make a lot of samples before finding one that works. For our proposal this problem won't be as bad. If you miss the angle even by a degree, it's not going to destroy the effect we predict."
Volkov expects that this topological superconductor has the potential to be better than anything else currently on the market. Though one caveat is they do not know exactly what the parameters of the resulting material will be, they have estimates that may be useful for proof of principle experiments.
The researchers also found unexpected behaviors for the special value of twist angle.
"We find a particular value of the angle, the so-called 'magic angle,' where a new state should appeara form of magnetism. Typically, magnetism and superconductivity are antagonistic phenomena but here, superconductivity begets magnetism, and this happens precisely because of the twisted structure of the layers." says Volkov.
Demonstrating these predictions experimentally will bring more challenges to overcome, including making the atoms-thick layers better themselves and determining the difficult-to-measure parameters, but Volkov says there is a lot of motivation behind developing these highly complex materials.
"Basically, the main problem so far is that the candidate materials are tricky to work with. There are several groups around the world trying to do this. Monolayers of nodal superconductors, necessary for our proposal have been realized, and experiments on twisted flakes are ongoing. Yet, the twisted bilayer of these materials has not yet been demonstrated. That's work for the future."
These materials hold promise for improving materials we use in everyday life, says Volkov. Things already in use that take advantage of the topological states include devices used to set resistance standards with high accuracy. Topological superconductors are also potentially useful in quantum computing, as they serve as a necessary ingredient for proposals of fault-tolerant qubits, the units of information in quantum computing. Volkov also emphasizes the promise topological materials hold for precision physics,
"Topological states are useful because they allow us to do precision measurements with materials. A topological superconductor may allow us to perform such measurements with unprecedented precision for spin (magnetic moment of electron) or thermal properties."
More information: Pavel A. Volkov et al, Current- and Field-Induced Topology in Twisted Nodal Superconductors, Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.130.186001
Pavel A. Volkov et al, Magic angles and correlations in twisted nodal superconductors, Physical Review B (2023). DOI: 10.1103/PhysRevB.107.174506
Journal information: Physical Review Letters , Physical Review B
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A highly performing device for polariton-based coherent microwave emission and amplification – Phys.org
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by Ingrid Fadelli , Phys.org
When light strongly interacts with matter, it can produce unique quasi-particles called polaritons, which are half light and half matter. In recent decades, physicists explored the realization of polaritons in optical cavities and their value for the development of highly performing lasers or other technologies.
Researchers at University of Manitoba recently developed a highly performing device based on cavity magnon polaritons that can emit and amplify microwaves. This device, introduced in Physical Review Letters, was found to significantly outperform previously proposed solid-state devices for coherent microwave emission and amplification at room temperature.
"In 1992, Claude Weisbush, a French semiconductor physicist working in Japan, discovered cavity exciton polariton by confining light in a quantum microcavity to interact with semiconductors," Can-Ming Hu, the researcher who directed the study, told Phys.org.
"This led to the invention of polariton lasers with superior performance that have transformed solid-state laser technology. Two decades later, the magnetism community re-discovered cavity magnon polariton by confining microwaves in a cavity to interact with magnetic materials, such a half photon and half magnon quasi-particle was first discovered by Joe Artman and Peter Tannenwald in 1955 at MIT, which went largely unnoticed until recently."
Wireless communication and quantum information technologies require coherent on-chip microwave sources. Motivated by this need, Hu and his colleagues set out to explore the potential use of cavity magnon polaritons to achieve high-quality microwave emission and amplification.
"Intrigued by the resemblance between cavity magnon polariton and cavity exciton polariton, I became curious whether the cavity magnon polariton might help us to make better solid-state microwave sources," Hu said. "So, in 2015, my group launched a study to explore microwave emission of cavity magnon polaritons."
The researchers initially set out to create a lightmatter coupled system based on cavity magnon polaritons for coherent microwave emission. They ultimately hoped to achieve a higher performance than those reported in previous works, while retaining their device's stability and controllability as a hybrid lightmatter coupled system.
"First, we follow the principle proposed in 1920 by Dutch physicist van der Pol: using nonlinear damping to balance gain in an amplified oscillatory system, one can design and optimize a stable gain-driven cavity," Bimu Yao, an associate professor from the Chinese Academy of Sciences who carried out this study at the University of Manitoba, told Phys.org. "Then, we set a magnetic material into such a gain-driven microwave cavity, letting the amplified microwaves to strongly interact with magnons."
The strong interaction between amplified microwaves and magnons in the researchers' system produces a new type of polariton, which they dubbed a "gain-driven" polariton. Compared to conventional polaritons realized in previous studies, this gain-driven polariton has a stable phase, which in turn enables the coherent emission of microwave photons.
"For decades, the magnetism community has been working on spin-toque oscillator (STO), which is a solid-state device that utilizes magnons to produce coherent microwaves," Yongsheng Gui, a research associate at the University of Manitoba who carried out the study, told Phys.org. "The major hurdle is that the emission power of the STO is typically limited to less than 1 nW. Our device's output is a million times more powerful, and the emission quality factor is a thousand times better."
In initial evaluations, a proof-of-principle device created by this team of researchers achieved remarkable results, outperforming both STOs and solid-state masers developed in the past. Masers are devices that use the stimulated emission of radiation by atoms to amplify or generate microwave radiation.
"Outside of the magnetism community, there have been divers efforts for developing masers," Gui said. "Compared with the best solid-state maser, our device's output is a billion times more powerful, with a comparable emission quality factor."
The new gain-driven polariton realized by Hu and his colleagues could open exciting new possibilities for the development of highly performing solid-state microwave sources that can be integrated on-chip. In addition to their compact sizes, these polariton microwave sources are frequency tunable due to the fabulous controllability of light-matter interaction. They could ultimately be integrated in a broad range of technologies and devices, including wireless communication systems and quantum computers.
"As the physics of gain-driven light-matter interaction is new, our study may also lead to new discoveries beyond microwave applications," Hu added. "We have now submitted a patent application, and my students are working on developing prototype devices together with industry partners."
More information: Bimu Yao et al, Coherent Microwave Emission of Gain-Driven Polaritons, Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.130.146702
Can-Ming Hu, Dawn of Cavity Spintronics, arXiv (2015). DOI: 10.48550/arxiv.1508.01966
Journal information: Physical Review Letters , arXiv
2023 Science X Network
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Jefferson Lab Hosts International Computing in High Energy and Nuclear Physics Conference – Newswise
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Newswise NEWPORT NEWS, VA Experts in high-performance computing and data management are gathering in Norfolk next week for the 26th International Conference on Computing in High Energy and Nuclear Physics (CHEP2023). Held approximately every 18 months, this high-impact conference will be held at the Norfolk Marriott Waterside in Norfolk, Va., May 8-12. CHEP2023 is hosted by the U.S. Department of Energys Thomas Jefferson National Accelerator Facility in nearby Newport News, Va. This is the first in-person CHEP conference to be held since 2019.
Science is driven by data. As research has progressed, so has the sheer volume of scientific data. The CHEP2023 conference will host more than 500 top computational scientists, data scientists, experimentalists and data center managers as they address the computing, networking and software issues for the worlds leading dataintensive science experiments.
Conference attendees will be welcomed to Virginia by Representative Robert C. Bobby Scott (VA-03), who represents the congressional district that includes Jefferson Lab and the conference venue. Old Dominion University Dean of the College of Sciences and Professor of Physics Gail Dodge, Jefferson Lab Director Stuart Henderson, and Jefferson Lab Associate Director of the Computational Sciences and Technology Division and Chief Information Officer Amber Boehnlein will also welcome attendees to these discussions at the intersection of physics and computing.
The CHEP conferences highlight key trends, challenges and solutions in computing as it applies to research in nuclear and high energy physics. This edition of the conference will place special emphasis on high-performance data organization, management and access, a topic of interest and relevance throughout the scientific community.
CHEP2023 features twelve parallel session tracks, where attendees will discuss such topics as: online and offline computing, data organization, software engineering, analysis tools, AI & machine learning, exascale science and quantum computing. The conference will also feature a special workforce development roundtable with speakers who are building an equitable STEM workforce for the future through mentorship programs that promote STEM education for students of all levels.
The CHEP conference location rotates among the Americas, Asia and Europe. It is typically held every 18 months. This is the first in-person CHEP conference to be held since 2019.
-end-
Jefferson Science Associates, LLC, manages and operates the Thomas Jefferson National Accelerator Facility, or Jefferson Lab, for the U.S. Department of Energy's Office of Science. JSA is a wholly owned subsidiary of the Southeastern Universities Research Association, Inc. (SURA).
DOEs Office of Science is the single largest supporter of basic research in the physical sciences in the United States and is working to address some of the most pressing challenges of our time. For more information, visit https://energy.gov/science.
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India’s Physics community must lend its ears to Cosmic Relativity that challenges Einstein’s theory – Asianet Newsable
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History of science provides some interesting examples of important scientific and technological discoveries which will hibernate for some duration and suddenly resurrect in future with new nomenclature separated in space and time.
Two such examples that come to our mind are the Geometrical Phase discovered by Pancharatnam in 1931 and its rediscovery by Berry which came to be known as Berry Phase in 1982. The third example is Joshy Effect in 1941 which describes interesting observations in Optical interaction with low-density discharge plasma.
Joshy effect provided valuable data on the nature of excited states of atomic, and molecularspecies present in the plasma discharge. Prof Joshy was a chemistry professor at Banaras HinduUniversity when he discovered an interesting phenomenon in gas discharge tube under lightirradiation.
His colleagues in the Physics department did not accept the discovery and sarcastically called it the Joshy effect. Later on, the Joshy effect was rediscovered as the Optogalavanic effect and provided a new spectroscopic technique to study optical absorption spectroscopy with non-optical detection in 1982 by Green et al . Then only BHU people and physicists elsewhere in Indian laboratories found that OGS is, in fact, the rediscovery of Joshy effect.
Prof S Chandrashekar, the astrophysicist Nobel laureate, was ridiculed by Eddington for his theory of the possible existence of a Black hole. Without initiating to fight with Eddington, Chandra wrote a book describing his discoveries and published it in Chicago. USA received Chandra with admiration to become Physics Professor at Chicago University. He was an excellent teacher and boasted that even if he did not get the Nobel Prize, the whole of his call got the Nobel Prize in Physics.
It is clear that the non-recognitions of a scientist's discovery by his colleagues is based on non-academic reasons rather than academic and logical arguments.
The latest of the Indian psyche to ignore path-breaking discoveries by one of their colleagues is that of the work by Prof C S Unnikrishnan. He discovered serious faults in Einsteins Special Theory of Relativity and developed an alternate theory called Cosmic Relativity. The entire STR has to be replaced by CR because they are antipodal. All the verified results of STR are also part of CR, but they have very different predictions for the most crucial aspects. In STR, the relative velocity of light is an invariant constant; in CR it is Galilean, like sound so the velocity of light depends on the velocity v of the observer so that.
The Galilean nature of light is confirmed in direct experiments at TIFR. This is further supported amply by facilities like the GPS. Coming to more recent experimental results, even the LIGO findings are consistent only in a new General Theory of Relativity, that is modified with CR as the basis; this is because the relative velocity of gravitational waves is also Galilean, as verified in the simultaneous detection of light (gamma) rays and gravitational waves. In CR, all the relativistic effects are because of the gravitational influence of matter and energy in the universe.
Since cosmic matter and its average density are observed and measured, its enormous gravity is the natural consequence.. After formulating CR, Prof Unnikrishnan also found serious inconsistencies in STR, due to a vital error Einstein made in the discussion of simultaneity and synchronization of clocks. That theory is to be completely replaced because its basic postulate is refuted (falsified) experimentally. Predictions like mass-energy equivalence and Lorentz- Fitz Gerald transformations in STR have logically-consistent concrete proofs in CR. Without assuming the constancy of the velocity of light, as Einstein did in his STR, Prof Unnikrishnan described an alternate theory of Relativity with the Universe as an absolute frame of reference for all dynamics, with respect to which light can have non-constant speed.
In spite of several experimental proofs to support CR from experiments like GPS and LIGO, and special optical interferometry using lasers in Prof Unnikrishnans laboratory itself, the scientific community in India does not acknowledge Unnikrishnans findings. Instead, he was not given an extension of service as a Professor of Physics in TIFR so that he can complete his experimental works and was unceremoniously removed from the investigation group of LIGO India (now Unnikrishnan is a professor at the Defence Institute of Advanced Technology, of the DRDO, in Pune).
One can also remember the case of Prof E C G Sudarshan whose two seminal discoveries in weak interaction and quantum optics were ignored while considering the Nobel Prize inphysics. In the first case, one can admit that he was a research scholar at that time and his guide did not allow him to speak on the subject during an international Physics colloquium.
Sudarshan commented on the 1967 NP in Physics, "What I did for my PhD thesis in 1957 was probably one of the most important things in physics and they (the Nobel Foundation) should have nominated me at that time. If not then ten years later. No, they didnt. Instead, they gave the prize to somebody who did something on top of it. I usually say if you want to awardsomebody, you take the person who built the ground floor, not someone on the second andthird floors. That is what they did. Glashow, Salam and Weinberg did the next step to what Idid. Without the first step, they couldnt have done it."But, in the case of Quantum Optics, the situation is different. Sudarsan was a senior physicistwith the distinction of several discoveries and awards including the Dirac Medal, at the time. Usually, when one got Dirac Medal, he/she is sure to win NP. The work he developed was re-described by Glauber in detail including the fundamental physics of optics involved in the findings, so that his paper will seem to be more extensive than that of Sudarshan who wrote a short paper highlighting the gist of his discovery. In spite of the fact that Sudarshan should have given a major share in the NP, the committee recognized only Glauber for the award. Sudarshan did not hide his disagreement with the recommendation of the NP committee regarding the nonrecognition of his work.
Nothing happened anything more in this case even though the scientific community aroundthe globe stood up to talk against the decision of the NP committee. "I can assure you that it isnot impartial. For example, the prize given to Glauber, it is my prize. They gave it to him for things which I did. The prize is coveted because it is identified with excellence, and themajority of people who have got it, have gotten it for very good reasons. The very firstprize was given to Rontgen, who discovered X-rays. At that time it was because of the factthat people recognised that X-rays were very important for medicine. But afterwards, theygave it for all kinds of things. Like my friend, Glauber got the prize for... I dont knowwhat; it cannot be because of the excellence of his work."One of the latest works by Sudarshan is the resurrection of an aether and how this explains light propagation as waves. It is interesting to note that the algorithm for factual GPS corrections developed by Prof Unnikrishnan for his CR is also based on an absolute frame (matter-filled Universe) as the background, according to a recent conversation given by Prof Unnikrishnan to Asianet News Online. To watch the full interview, click the link.
One should not forget the Late Prof Thanu Padmanabhan (IUCAA, Pune, yet another scientist fromKerala) who described GTR in the light of classical thermodynamics and fused QuantumMechanics with GTR which was a task ( fusion of GTR with QM) taken up by many scientistswithout success. His untimely demise was a loss to the scientific community since he had moretheories which could have made physics more rich. In the following sections, we will describethe details of Unnikrishnans theory. Assuming that the velocity of light is an absolute fundamental constant only in the cosmic rest frame, determined physically by the gravitational interaction of light with the Universe Prof Unnikrishnan was able to show that CR implies all relativistic effects and that the velocity of light is Galilean in all other frames. It is very important to realize that the effects are gravitational in origin and that in an empty Universe, there will not be any relativistic effects, unlike in SR. It is possible to get convinced of this by considering the effect of distant galaxies on local physics.
For example, a moving clock experiences a cosmic gravitational potential that is different from what is experienced by a clock stationary in the Universe. Then it is gravitational time dilation that is responsible for the experimentally verified motional time dilation. Obviously, this solves the much-debated twin-paradox consistently and easily. The more fundamental theory -- Cosmic Relativity -- is based on the gravitational effects of the Universe and it is not limited to reference frames moving with uniform velocity.
Results for clock comparison experiments
Time dilation effects are very important for the experimental validation of cosmic relativityConsider a frame moving at velocity V with respect to the cosmic frame. We consider experiments in which there are clocks moving within this frame, which will be compared among themselves and with other clocks that are at rest within the frame. Consider a clock within this frame that is moving at velocity u relative to the coordinates inside the frame. SR asserts that no special relativistic time dilation expression should contain the velocity of the frame (with respect to some hypothetical frame in which the moving frame is embedded) in which the experiment is performed.
The cosmic gravitational time dilation has the characteristic imprint of the fact that there is a preferred cosmic frame with reference to which the time dilation is calculated. The clock that is stationary within the frame itself has a time dilation with respect to the clocks in the cosmic rest frame. (Such a clock is notionally provided by the temperature of the CMBR). We have to calculate the time dilation of the stationary clock and the moving clock with respect to the cosmic frame and then compare them.
The surprising new result is the dependence of the time dilation factor on the velocity of the frame. This is equivalent to considering all velocities relative to the cosmic rest frame or CMBR for calculating the time dilation effect. It is possible to have a moving clock inside a local frame age faster than a stationary clock in the same frame, in complete contrast to the special relativistic prediction. In SR, no local experiment should have a dependence on the velocity of the frame.
If a clock is taken around the earth along the equator at constant ground speed u, and brought back after a round trip, its time dilation with respect to a clock stationary on the surface is not given by the special relativistic factor predicted by Einstein in 1905. The correct result is given by Cosmic Relativity.The result that the clock in motion can age faster than a clock at remaining at rest within the laboratory frame is devastating for Einsteins SR. This can never happen in SR. For a clock moving at ground speed u along the instantaneous surface velocity (440 m/s) of the rotating earth with respect to the cosmic frame, and another one moving opposite (eastwards and westwards). If the clocks are taken around in aircraft with a velocity 220 m/s (average ground speed of about 800 km/hour), then the predicted asymmetry would be T 310 ns This is several times larger than the special relativistic time dilation, t 50 nsThe total time dilation asymmetry depends only on just the total path length covered in the experiment. It does not matter how fast the clocks are moved, provided we move them by the same distance. Slow transport will need more time, and the asymmetry depends only on the product of the velocity and duration. Thus if the clocks are taken around by walking around the earth eastwards and westwards along the equator, the clocks will show an asymmetry that is exactly equal to the one predicted for clocks taken around in fast flights! All these results have been already verified in the results of clock transport experiments, done as early as 1970 (Hafele-Keating experiment).
Experimental Evidence for Cosmic Relativity
The Sagnac effect was first discovered in optical interferometry. The phase shift in a rotating planar interferometer with area A, in which light travels in two opposite paths and returns to their starting point is given by .This expression is the same as the expression for the time asymmetry in round-trip clock comparisons. It is implied that the physical interaction responsible for the Sagnac effect is the gravity of the Universe.
Here we merely note that the total equivalence of the expression for the Sagnac effect forlight and matter waves arises from the fact that gravitational interaction is universal, and therefore the Sagnac effect does not depend on the group velocity of waves used in Sagnac interferometry (this result is not intuitively obvious, for example in a Sagnac interferometer that uses optical fibres, since the light pulse takes more time to circle around and yet the time difference between the clockwise and counterclockwise pulses is still given by the same equation.) Thus Cosmic Relativity is the generalized theory of relativity in flat spacetime since it does not distinguish between inertial and non-inertial motion.
Cosmic Relativity and physical effects in quantum systems
In cosmic relativity, the enigmatic connection between spin and statistics in quantum theory is seen to be a consequence of the gravitational interaction of the spin with the Universe. The interaction is gravitomagnetic in nature and gives us the result that identical integer spin particles obey Bose-Einstein statistics and identical half-integer spin particles obey Fermi-Dirac statistics. This is a deep result, and for the first time might answer the long-standing query-what are the physical reasons behind the spin-statistics connection? It also answers why the connection is valid in non-relativistic, two-particle situations despite the general impression that it is a consequence of relativistic field theory.
The fine structure in atoms, Spin in CR, and the Spin-Statistic connection
When the idea of electron spin was first proposed by Uhlenbeck and Goudsmit, they had not resolved the problem that the simple spin-orbit coupling ( L-S coupling) gives twice the experimentally observed value for the fine structure splitting. CR shows that the correct fine structure is obtained from a cosmic gravitational interaction. Spin in gravity is the equivalent of a magnetic moment in electrodynamics.
Any physical effect that exclusively depends on spin must be of gravitational origin. The spin-statistics connection is the following: a) Particles with integer spin are bosons and they obey the Bose-Einstein statistics. b) Particles with half-integer spin are fermions and they obey the Fermi-Dirac statistics. This simple division is behind most of the material variety in the physical world. A geometric understanding of these statements was published by Berry and Robbins and several authors have invoked the relation between rotation operators and exchange of particles in quantum mechanics to prove the spin-statistic theorem.
Sudarshan has been arguing for the existence of a simple proof that is free of argumentsspecific to relativistic quantum field theory. While these attempts have clarified several issues regarding the connection, none provides a physical understanding of the connection. It may be noted that physically the connection is applicable for any two identical particles, in non-relativistic quantum mechanics. Thus we should expect that the physical proof need not depend on relativistic quantum field theory.
Cosmic relativity shows that it is the gravitational interaction of the quantum particles with theentire Universe that is responsible for the spin-statistics connection. In other words, the Pauli exclusion is a consequence of the relativistic gravitational interaction with the critical Universe, which is always present.
The fundamental principle regarding the velocity of light
The fundamental principle of Cosmic Relativity is that the velocity of light is a fundamental constant only in the cosmic rest frame, determined by the local average gravitational potential due to the entire Universe in the cosmic rest frame. Relative to a moving observer, the relative velocity of light varies, just as for sound and other familiar waves. In SR, the constancy of the velocity of light in all frames is the defining assumption. So, the measurement of the one-way relative velocity can decisively settle which theory is correct. (Note that the Michelson-Morley experiment uses a two-way propagation of light and it's not suitable for deciding this fundamental issue of the nature of propagation of light, contrary to the general belief). An experiment was done in Unnikrishnans lab, progressively refining, to determine the genuineone-way relative velocity of light, and compare it to the behaviour of sound. The result decisively refutes and falsifies the defining postulate of Einsteins theory, and therefore, the theory itself.
Why is E=mc2?
We now discuss the physical relation between the velocity of light and the average gravitational potential of the Universe at any point. If the Universe started from pure nothingness, then it is expected that every constituent of this Universe has zero energy. One part of the energy is the gravitational interaction energy. Clearly, every mass at rest with respect to the cosmic frame should possess energy and can be seen as and thus E = mc2 as predicted by SR.
Conceptual and philosophical implications
There has been a significant change, in fact, the most profound and far-reaching, in the philosophical view on space and time after Einsteins relativity theory became understood. The development of Cosmic Relativity and experimental evidence favouring it will imply a large shift in our worldview. The new world-view will of course be different from the one that existed in pre-SR days, though Cosmic Relativity brings into focus a preferred frame we call the cosmic rest frame or the absolute frame. Since there is no aether, and since new circumstances arise in acknowledging the gravitational presence of the Universe, a world-view based on Cosmic Relativity will be different from the one induced by Special Relativity. It is important to note that the only aspect of the cosmos we have used in deducing a new theory of relativity is its approximate homogeneity and isotropy, and the fact that the Universe is nearly at critical density. These results imply a critical modification of General Relativity as well, in which the theory is endowed with the absolute matter frame of the Universe. This makes GTR totally Machian, which was indeed one of Einsteins passionate desires for his theory of General Relativity. There is also the question of whether there should be a change in our attitude towards quantizing gravity.
Space and time are un-observables, and really have no meaning in the absence of matter. It is a matter that defines, facilitates, and modifies measurements of spatial and temporal intervals. At present it suffices to mention that everything we know in General Relativity is consistent with Cosmic Relativity, and the harmony between the two is even better than in the case of General Relativity and Special Relativity.
We can now answer some of the doubts raised by Julian Barbour in his book, Absolute or Relative Motion?: Discovery of Dynamics .Cosmic Relativity strengthens these connections further, that relativistic modifications of spatial and temporal intervals, as well as several important effects specific to quantum systems, are the results of the gravitational interaction of the Universe with the local physical system. Thus the construction of Cosmic Relativity answers the important questions left unanswered by the pioneers like Newton, Mach and Einstein. A major monograph written by Unnikrishnan was published recently by Springer Nature (Nov. 2022) in which it is stated the theory of cosmic relativity addresses and answers all long-standing questions and puzzles in relativity and dynamics.
Conclusion
We discussed some of the revolutionary discoveries made by Prof C S Unnikrishnan through the proposal of Cosmic Relativity. There is no place for an axiom that the velocity of light is constant in all frames of reference as Einstein imposed to describe SR. It is high time that Prof Unnikrishnans CR should be discussed by the Physics community in India without any prejudices. One should note that when a new theory is emerged by shattering the foundations of existing theory, there is always an inertia among the specialists to accept it just as the inertial forces described by Newton in his laws of motion. Hope that we will hear positive discussions among the specialists so that a new paradigm shift will be created in unravelling the secrets of nature.
Prof V P N Nampoori is visiting scientist at the Cochin University of Science and Technology, Kerala University and M G University. Views expressed are personal
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Hashtag Trending May 3- Quantum startups get creative while waiting for quantum computers to arrive; sites built on Salesforce Community leak private…
Posted: at 3:23 pm
Software engineers get the ball rolling as they wait for quantum computers to arrive, a number of public Salesforce sites leak private data and the first wooden transistor is here.
These top tech news stories and more for Wednesday, May 3rd, 2023. Im your guest host, James Roy.
Weve heard a lot of endless superpowers of quantum computers, be it to revolutionize medical research or solve climate change. Millions are being poured into these machines, hailed as being a million times faster than todays fastest computers. But they are yet to hit the market.
However, quantum startups are getting creative despite lacking these powerful computers.
QC Ware, a software startup initially focused only on software that could run on quantum computers.
But the company now said it needed to change tack to find a solution until the future quantum machines arrive.
Investors are not shying away either, despite the dismal stock performance of publicly-listed quantum computer companies. QC Ware, in fact, raised more than $33 million.
What these startups are doing is nothing short of brilliant;
They are developing a new breed of software inspired by algorithms used in quantum physics which is a branch of science that studies the fundamental building blocks of nature.
These algorithms, once too big for conventional computers, are being put to work thanks to todays powerful artificial intelligence chips.
QC Ware CEO, Matt Johnson said it turned to Nvidias GPUs to figure out how can we get them something that is a big step change in performance and build a bridge to quantum processing in the future.
This week, QC Ware is unveiling a quantum-inspired software platform called Promethium that will simulate chemical molecules to see how they interact with things like protein on a traditional computer using GPUs.
The companys head of quantum chemistry said the software can cut simulation time from hours to minutes for molecules of 100 atoms, and months to hours for molecules of up to 2000 atoms, compared with existing software solutions.
Source: Reuters
According to a report by KrebsOnSecurity, a number of organizations, including banks, healthcare and government agencies are leaking private and sensitive information through their public Salesforce Community websites.
Reportedly, the leaking stems from a misconfiguration in Salesforce Community that allows an unauthenticated user to access records that should only be available after logging in.
Salesforce Community is a widely-used cloud-based software that makes it easy for organizations to create websites.
Customers can access a Salesforce Community website by either logging in or through guest user access, which allows unauthenticated users to view specific content and resources, without logging in.
But sometimes Salesforce administrators also mistakenly grant users access to internal resources which can cause unauthorized access and data leaks.
The state of Vermont, for instance, allowed guest access to sensitive data to at least five separate Salesforce Community websites, including one for a Pandemic Unemployment Assistance program that exposed applicants full name, SIN number, phone number, bank account number and more.
Vermonts Chief Information Security Officer Scott Carbee said, During the pandemic, we were largely standing up tons of applications, and lets just say a lot of them didnt have the full benefit of our dev/ops process. In our case, we didnt have any native Salesforce developers when we had to suddenly stand up all these sites.
But, Carbee also denounced the permissive nature of the platform
On Monday, KrebsOnSecurity notified Washington D.C. city administrators that at least five different public DC Health websites were leaking sensitive information.
Interim CISO, Mike Rupert said the District had hired a third party to investigate and it revealed that the Districts IT systems were not vulnerable to data loss.
But after being presented with a document including the Social Security number of a health professional in D.C. that was downloaded in real-time from the DC Health public Salesforce website, Rupert acknowledged his team had overlooked some configuration settings.
Meanwhile, Salesforce maintains that the data exposures are not the result of a vulnerability inherent to Salesforce but occur when customers access control permissions are misconfigured.
In a written statement, Salesforce said it is actively focused on data security for organizations with guest users, and that it continues to release robust tools and guidance for our customers.
Source: KrebsOnSecurity
The Federal Trade Commission (FTC) has a new proposed rule to fight the absolute headache that canceling subscriptions can be.
The proposed provision, Click-to-Cancel, seeks to make it as easy to cancel enrollment as it was to sign up.
FTC Chair Lina M. Khan said, Some businesses too often trick consumers into paying for subscriptions they no longer want or didnt sign up for in the first place.The proposal would save consumers time and money, and businesses that continued to use subscription tricks and traps would be subject to stiff penalties.
The new proposal will mandate a simple cancellation mechanism. For instance, if you signed up online, you must be able to cancel on the same website in the same number of steps.
Secondly, the proposal would require sellers to ask customers whether they want to be pitched other offers upon cancellation. Sellers must take no for an answer if thats the case and immediately expedite the cancellation process.
Finally, and that, no doubt would be helpful to many of us, the proposed rule would require sellers to provide an annual reminder to consumers enrolled in subscriptions, before they are automatically renewed.
Source: FTC
Akash Nigam, CEO of avatar technology company Genies revealed to Insider that he is spending $2,400 a month on ChatGPT accounts for all 120 of his employees as part of an experiment to boost productivity.
Nigam says he is already seeing stuff getting done faster.
He said that Genies R&D team, for instance, has used ChatGPT to answer math and coding questions, get advice on how to debug code, and generate scripts for presentations based on outlines. Other employees have used it to generate creative briefs, write legal documents and answer technical questions.
Not everyone is using ChatGPT but he is encouraging everyone to make learning the technology a priority.
Employees who are more productive as a result of using ChatGPT will be up for a raise or a promotion. Others, he says, will fall behind
He also believes that the use of the technology can help his company reduce costs as he will need to hire less employees.
Genies is not the only company diving head first with ChatGPT. Amazon, Microsoft and design firm Pure Fusion Media have also strongly encouraged employees to use AI.
Source: Insider
The link between increased cyberthreats and AI however, remains unclear. Some say it might be overblown.
John Dwyer, head of research at IBM Security X-Force, told Axios, Cybercriminals are often looking for the simplest, quickest schemes to make money, and bringing todays AI into play doesnt fit that bill.
If anything, its cyber defenders who will exploit AI to counter the run-of-the-mill security holes that criminals keep exploiting.
Palo Alto Networks and Mandiant are the big names already playing around ChatGPT and other AI tools to improve their security products.
Michael Sikorski, CTO of Palo Alto Networks threat intelligence team revealed that most of the malicious code spewed by AI tools are repurposed from previous attacks. He adds, maybe they are faster, but they are not new. And its definitely not trained on how to write a zero-day or find or exploit a vulnerability.
Plus, according to Chester Wisniewski, field CTO of applied research at Sophos, most hackers do not double up as data scientists or are not training the AI models themselves. Theyll need to bring make enough money from the malicious AI for it to be worth it.
But, Wisniewski says, the upside is the good guys do have data scientists, and many of us do spend millions of dollars in the cloud on GPUs
However, we still need to be wary. Many cybercriminals are using simple AI tools to get people to respond to phishing emails and scam texts.
And many companies continue to suffer from attacks with already publicly known flaws that companies failed to patch.
Rob Joyce, director of cybersecurity at the National Security Agency, said during the RSA Conference, Ill tell you, buckle up. Next year, if were talking a similar year in review, well have a bunch of examples of where its been used and where its succeeded.
Source: Axios
Swedish researchers have built what they claim is the worlds first wooden transistors.
Its shaped like a T and made from three pieces of balsa wood.
The top of the T served as the transistor channel, with a source at one end and a drain at the other, while the vertical portion of the T used two pieces of balsa with a gap between them to form the transistors gate pieces.
Before you start gathering your tools and your balsa wood, remember that in order to make the wood conductive, the researchers had to expose it to heat and use chemicals to replace the lignin with conductive polymer.
Once filled with the polymer and assembled, the Swedish team achieved conductivity up to 69 Sm-1, and were also able to prove the devices effectiveness as a double-gate organic electrochemical transistor and functional on/off switch.
Previous wooden transistors could only regulate ions transport and would stop functioning once the ion ran out. This one does not work like that and still functions without deteriorating.
But, unfortunately this breakthrough is not going to revolutionize the semiconductor industry. The balsa wood transistor is neither small nor fast. Its so slow its unable to switch off under a second and switching on takes a full five seconds. Not exactly super computing speeds.
But for the researchers, this proves that it is possible to modulate the electrical conductivity of the electroactive wood by applying an external voltage.
Source: The Register
One of our listeners sent in a note about yesterdays story where we reported that Pornhub was pulling out of Utah. Apparently searches for Virtual Private Networks (VPNs) that allow people to disguise their location went off the charts. Probably a coincidence just a lot of folks trying to watch Charles coronation on BritBox. I mean its Utah they wouldnt.
Thanks to Nemanja for that we love your comments, keep it coming.
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Not how white men fight: Tucker Carlson text reportedly worried Fox bosses – The Guardian
Posted: at 3:21 pm
Fox News
Fired Fox host allegedly described Trump supporters assaulting a man, while finding himself rooting for the mob
A racist text message allegedly sent by the former Fox News host Tucker Carlson set off alarm bells at the top of the network and ultimately contributed to his firing, the New York Times reported.
The text, which remains redacted in court filings in Dominion Voting Systems defamation case against Fox News but which the Times published in full, included the line: Its not how white men fight.
The message allegedly shows Carlson describing how he saw a group of Trump supporters beat up an Antifa kid, or anti-fascist counter-protester.
Carlson allegedly described the encounter as three against one, at least and added: Jumping a guy like that is dishonourable obviously. Its not how white men fight.
Carlson allegedly wrote that he initially found himself rooting for the mob against the man, hoping theyd hit him harder, kill him. I really wanted them to hurt the kid. I could taste it. He then noted such thoughts were not good for him.
Carlson was fired last week, in the aftermath of the $787.5m settlement of the Dominion case, brought over the broadcast of Donald Trumps election fraud lies.
The Times said the Fox board had been concerned the Carlson text could be made public at trial, and its discovery led to a law firm being hired to investigate the host.
The paper also said the message would not necessarily have been revealed in court. It and other organisations are trying to persuade the Delaware judge in the Dominion case to release some redacted messages.
Fox has not revealed the reason for Carlsons departure, or commented beyond thanking Carlson for his service.
Last month, the Times and the Wall Street Journal reported Carlson was fired after executives discovered vulgar text messages, including one in which he called a top executive a cunt.
Last week, a person close to Carlson disputed that, telling the Guardian: An elderly Australian man the Fox News owner, Rupert Murdoch, 92 fired his top anchor with no warning because he was so offended by a dirty word? Stupidest explanation ever. Please. A big decision requires a powerful motive. Naughty words in text messages dont qualify.
There were also concerns among Fox management that Carlson was behaving as if he were above the network, reported the Journal, also owned by Murdoch.
The Los Angeles Times has reported that the firing was in connection to a lawsuit filed by Abby Grossberg, Carlsons former senior booking producer, who said she operated in a sexist and misogynistic working environment.
We will vigorously defend Fox against all of her legal claims which have no merit, Fox said.
The Dominion lawsuit revealed depositions, emails and text messages collected from the networks top stars as evidence.
Carlson text messages that came to light disparaged Trump (I hate him passionately); Fox management (Do the executives understand how much credibility and trust weve lost with our audience?); and Sidney Powell, a lawyer and Trump ally who was a key figure spreading election lies on Fox (Sidney Powell is lying, fucking bitch). In another text, Carlson called Powell a cunt.
The progressive watchdog Media Matters for America has published a series of leaked videos of Carlson talking off-air.
In videos released on Tuesday, the host was seen to make crude remarks about women and attempting to discuss sex with the British TV host Piers Morgan.
On Wednesday, Media Matters released video in which Carlson discussed his deposition in the Dominion case, complaining of a slimy little motherfucker sitting across from me.
Carlson described the hate he felt for his questioner, adding: I dont want to feel that way. I think its wrong. Its bad. Its totally bad for you to feel that way. But that guy, he triggered the shit out of me.
Carlson has not commented about the videos, or about the message reported by the Times.
The text was allegedly sent to a producer soon after Trump supporters stormed the US Capitol on 6 January 2021.
Unredacted messages show Carlson and his producer expressing their concern over the president and the lies and worrying what Trump might do to put rights in jeopardy in the final two weeks of his presidency.
The text that was redacted allegedly shows Carlson describing the violent assault of an Antifa kid by Trump supporters and finding himself rooting for the mob before changing his mind.
The Antifa creep is a human being. Much as I despise what he says and does, much as Im sure Id hate him personally if I knew him, I shouldnt gloat over his suffering. I should be bothered by it. I should remember that somewhere somebody probably loves this kid, and would be crushed if he was killed, Carlson allegedly wrote.
The text did not mention the race of the protester being attacked.
Last year, however, the Times published an in-depth analysis of Carlsons prime-time show, which it said may be the most racist show in the history of cable news and also the most successful.
On Tuesday, the Times said: For years, Mr Carlson espoused views on his show that amplified the ideology of white nationalism. But the text message revealed more about his views on racial superiority.
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Not how white men fight: Tucker Carlson text reportedly worried Fox bosses - The Guardian
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