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Daily Archives: October 16, 2023
On the trail: Playing poker with pheasants | Outdoors … – La Grande Observer
Posted: October 16, 2023 at 6:44 am
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Fraudster Allegedly Extorted Money from Two Hustler Casino Live … – PokerNews.com
Posted: at 6:44 am
An alleged fraudster is accused of pitting two prominent Hustler Casino Live regulars against each other to run an elaborate scam.
Benjamin "Blank Check Ben" Lee and "Wes Side" Wesley Fei, both polarizing figures on the show, have an admitted tense relationship. But the poker players are putting their differences aside to expose someone they believe has extorted them both, which Lee explained via his own blog post.
In August, an anonymous person made some accusations against Wesley in a WordPress blog post, claiming the poker player got him for $250,000 in a cryptocurrency scheme in early 2022.
The anonymous individual then contacted Lee on Instagram to inform him about the supposed crypto scam. Being a proponent of justice and having a disdain for the alleged scammer, as he explained in the blog post, Lee decided to listen to the apparent victim to find out the details.
As the two began to speak, the anonymous person told Lee that he was embarking on a project to expose Wesley's crimes publicly and that he needed financial assistance in doing so. Initially, he refused the request, but then months later things took a turn when the anon victim informed Lee that after Wesley had somehow gotten word of the project, Wesley flipped the script and offered the person who accused him of a scam $35,000 to expose Lee as the "originator of this campaign of character assassination."
Concerned that the accuser could harm his reputation, he offered to help fund the project to expose Wesley even though he knew he was being pitted against his Hustler Casino Live rival in a bidding war.
He first sent a $1,000 wire transfer, and that is where he discovered the anonymous person he'd been communicating with is Russell Thamer, a London-based recruiter for a financial firm.
In the anonymous blog, the author accused Wesley of sending "thugs" to burglarize his home and allegedly admitted to it after the supposed incident took place. Wesley sent out a tweet denying the allegations and hinted that Lee was behind the accusations. At around the same time, Lee wired another $1,500 to fund the project.
Around the same time, Thamer informed Lee that he'd been contacted by someone who claimed to have evidence that Wesley, who is from China, committed immigration fraud in the United States. But he required an 80,000 payment to turn over the evidence. Thamer asked Lee for the money, but the offer was declined. He then came back and claimed he'd negotiated a smaller amount for the evidence, to which Lee also refused to pay.
Jack-Four One Year Anniversary: Live-Stream Poker's Most Infamous and Insane Hand Ever
Following the release of the anonymous blog post, Thamer claimed he'd received threatening voicemails and that he was being stalked, perhaps by Wesley's hired goons. Upon hearing about the threats, Lee felt concern for his own safety, so he hired security to patrol his Los Angeles home, and then he sent another 22,500 in cryptocurrency to get his hands on the supposed immigration fraud evidence so that he could bring Wesley to justice the crimes he'd allegedly committed.
But then a request for additional funds came hours later, and the following day he discovered the documents didn't even exist. Lee would then contact Hustler Casino Live co-owner Ryan Feldman to discuss the matter and set up a meeting with Wesley.
The following day, Lee and the poker player he'd been beefing with for months met to compare evidence (text messages and voice recordings). It was then that they both discovered they'd been scammed and pitted against each other by someone who likely took advantage of their disdain for each other.
In September, Wesley shared with PokerNews a WhatsApp conversation with the then anonymous person, which are visible below and clearly show the attempted scheme to pit the poker players against each other for financial gain.
Both Lee and Wesley have shared proof that Thamer attempted to extort and blackmail them even after his scam was exposed.
"He tugged at my heartstrings and led me to believe that he had lost his entire life savings Wesley's crypto scam," Lee told PokerNews. "Additionally, he also convinced me that his personal safety was at risk. This was when I sent him the GBP 30,000."
Wesley explained that the two have since become friends as they learned that they were being extorted and pitted against each other. For further details about Thamer and his alleged scam, visit ScamClarification.com.
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Tyler Barnes Takes Down the RGPS Tulsa Main Event for $52692! – PokerNews.com
Posted: at 6:44 am
After three days of play, the RunGood Poker Series $600 Main Event at Hard Rock Hotel and Casino in Tulsa, Oklahoma has come to a close after over 12 hours of play on the final day. The total number of players from all three flights came to 499 entries, creating a $260,000 prize pool that almost tripled the $100,000 guarantee that the event promised.
After navigating through a tough final day, Tyler Barnes stood alone atop the field, claiming the title, the championship ring and the $52,692 first-place prize. Adding to the champion's purse in a big way is the addition of the Dream Seat package, which provides a full travel package and a seat to the Dream Seat Invitational, the winner of which will be entered into the televised PokerGo Tour Championship $1,000,000 Freeroll which is a 64-played capped field meaning that Barnes could parlay this win into some serious life-changing money.
When the 63 players who returned to play the Day 2 session took their seats, the action started from the onset and showed no signs of slowing down as a flurry of eliminations saw the field cut from 63 to all the way down to 36 within just a couple of hours. From there, stacks were a little deeper, and play began to find a slightly slower pace. The final table of nine was still reached relatively early in the night but would take up the majority of the day as everyone was eyeing the title, and no one was willing to go out easy.
The final table got off to a fast start with the first few eliminations happening in short order, the first of which being Bryce Laymance, who fell in ninth place when he lost a flip versus the eventual champion. Next to hit the rail a short ten minutes later was Justin Barraza whogot the last of his stack in on a flop that gave him a straight flush draw but ultimately finding no improvement on the turn or river against the flopped top set of Kami Hudson.
Then, another short 15 minutes later, PokerNews' own Liam Gannon found the exit in seventh place when he ran into aces and couldn't get lucky to extend his run at a RGPS main event title just a few short days after a runner-up finish in the Flip'n'Go event. One level later, Dustin Messner would exit the tournament area in sixth place after getting his money in good but getting out-flopped in a preflop all-in confrontation.
Kami Hudson would be next to hit the payout desk after getting in a flopped top pair against a set and failing to find runner-runner to survive. Next out would be Brazos Roberts, who was forced to the rail after jamming to steal the blinds from the button and running into a big hand in the blinds.
From there, the final three players would discuss an ICM chop but ultimately couldn't come to an agreement and ended up trading chips, stealing pots and doubling up through each other for over three hours, with everyone holding the chip lead at least once. On a number of occasions, stacks were close to dead even and it looked like the three-way battle could drag on forever, but eventually, after losing a number of pots to find himself short, Miguel Degollado would fall in third-place when he jammed from the small blind, getting called by the big blind and remaining unimproved through five cards to make way for what promised to be a highly contested heads-up battle.
Although Tyler Barnes would enter heads-up play with roughly a 3:1 chip lead, Mark Barrientos would not make closing out the title easy on him as he jammed over a number of opens and battled to take down every pot he could. In the end, it would be a classic flip that would decide that champion, and Barrientos would find himself on the losing end, taking second place in the same casino where just six weeks ago, he took down a WSOP Circuit main event for almost $127,000.
The victory marks Tyler Barnes's first RGPS ring, and he certainly proved himself a worthy champion with solid play, well-time aggression, and absolute control throughout the entirety of the event.
The next RunGood Poker Series kicks off on October 19th at Graton Casino Rohnert Park in Rohnert Park, California, and with the fun and friendly atmosphere that the RGPS stops consistently provide, this is a stop that you want to visit and a series tour that should absolutely be on your to-do list as a poker player!
That closes out coverage from this stop, but as always, keep it locked to PokerNews for up-to-date coverage of all major tours and news stories within the poker industry!
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Red-Hot Poker: The Seafarer, at the Richmond Hill Barn Theatre … – River Cities Reader
Posted: at 6:44 am
The world seems to be rampant with disappointments, disasters, and persistent obstacles. Conflict drives drama, but does real life have to be so hard so often? Sometimes, theatre can provide answers, comfort the life-weary, or entertain so thoroughly that you forget your problems. The Richmond Hill Barn Theatre's production of The Seafarer does all three.
Debuting in 2006 at London's Royal National Theatre, this work by Irish playwright Conor McPherson earned four Tony Award nominations with one win, plus two noms from the Olivier Awards (the U.K.'s Tonys) with one win. It's been described as a black comedy, which I'd dispute you can't slap a label onto this one. What made me want to see this play was not a genre descriptor, but the New York Times' Ben Brantley's observation: "The Seafarer may just be the pick-me-up play of the season." I attended Thursday's opening night, a gamble based on that blurb, and won an extraordinary theatre experience even better than I'd expected thanks to director Justin Raver and his skilled cast, crew, and staff.
In a little house near Dublin, on a Christmas Eve, we have a coterie of prone-to-violence alcoholics guys grousing, drinking, not drinking, wanting to drink, sneaking drinks, and berating others' choices as to whether and what to drink. The Seafarer, though, isn't really about liquor, but rather relationships, duty, and trying to get by. Caregiving is not for the faint of heart, and when one's charge is a family member, it adds complexity to this already-demanding vocation.
James Sharky Harkin, played by the physically imposing Matthew McConville, is resigned, determined, yet sizzling with resentment as he enters his brother Richard's house. Easy to understand once we realize that Richard is not just in a mood, he is a mood and I'd feel the same way, were I in his slippers. The blind, querulous Richard is hard to like, but his impeccable portrayer Gary Talsky made it impossible for me not to. Despite his situation, Richard tries to be cheery and look forward to simple (and pitiful) Christmas revels. I also commend Talsky for both his convincing manifestation of Richard's disability and skill in not injuring himself or others while doing so.
Patrick Kelley plays Richard's friend and occasional caretaker, Ivan, as a slightly befuddled yet fundamentally genial man. I'm unsure whether the character's bewilderment is inherent or due to his inebriation but as he's never sober, it's a moot point. Kelley is genuine and very appealing in the role the kind of friend I'd want helping me. It turns out that Richard, to Sharky's fury, has invited a family acquaintance to drop by and play poker that night, and Bobby Metcalf's Nicky comes off as a (comparatively) well-to-do nerd trying to be cool. This fresh-faced lad's entrance is itself a comedic moment, as Sharky has painted Nicky as an utter villain, having both moved in with his ex and driven his car around town. (To be fair, I'd be furious at either transgression, too, never mind both, and wouldn't want to spend a holiday with this wanker.)
When he arrives, Nicky brings his new acquaintance, Mr. Lockhart, to join the game. (Unsurprisingly, they met at a pub.) Bruce Carmen's Lockhart is even more well-off than Nicky: articulate, polite, jovial with a touch of smug not really the sort to grace a working-class cottage. Carmen plays Lockhart's slow emotional transitions, as well as his sudden mood swings, with marvelous style. But then, each Seafarer actor has exceptional moments. At one point, McConville simply stares in shock, fear, and indecision while the others natter on. He doesn't move, but I couldn't look away. Raver's actors are a tight, cohesive ensemble, as well. As diction, inflections, and accents are particular interests of mine, I must say that the brogues here are near perfection, with only one character not quite as Irish-sounding as the others.
The Seafarer's uncredited set designer expresses Richard's home in Richmond Hill's traditional theatre-in-the-round manner as a living room on the central stage, with furniture and set dressing in each of the four corners, which also represent exits to other rooms and the outdoors. In truth, the decor is a touch too neat and refined for the Harkin brothers; here, the disarray in their lives is echoed by the acting, not the surroundings. I did especially admire a long, rough-looking stairway up to the front door that underscores the characters' emotional and physical difficulties in leaving, as well as in letting others in. Additionally, some moments are enhanced by lighting changes courtesy of designer Jennifer Kingry, aided with sound cues by Kingry and Larry Lord.
I've seen three of The Seafarer's on-stage gents in other shows, and after enjoying them together in Raver's demanding production, I expect more fine performances from each. Truly: Make it a point to see this show. Though set at Yuletide, it's an excellent way to celebrate the spooky season, as well as a compelling drama with laughs, unexpected edge-of-the-seat moments, and one morbidly fascinating monologue that is utterly chilling. You can't fit that in a theatrical publisher's catalog.
The Seafarer runs at the Richmond Hill Barn Theatre (600 Robinson Drive, Geneseo IL) through October 15, and more information and tickets are available by calling (309)944-2244 and visiting RHPlayers.com.
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Paulius Plausinaitis Turns the Tables to Win $25000 NLH at EPT … – PokerNews.com
Posted: at 6:44 am
Today's $25,000 No-Limit Hold'em event, running at the Merit Royal Diamond Hotel Casino & Spa as part of the PokerStars European Poker Tour Cyprus, has now reached its conclusion and a winner has been crowned.
A total of 29 entries were made to the event, which generated a prize pool of $696,290. Of those entries, five players made the money.
Artur Martirosian and Paulius Plausinaitis were the last two players left standing. Martirosian came into the heads-up battle with a significant chip lead, but Plausinaitis soon doubled up to bring it even. He then managed to make a flush to claim most of Martirosian's chips and leave him short, moments later winning the match.
Martirosian took second place for $170,600 and Plausinaitis was crowned champion to walk away with the trophy and $264,690.
There wasn't too much difference in stack sizes as nine players reached the final table, although Alex Kulev was out in front and Martirosian sat in second place.
Ren Lin was short stacked and became the first to exit. He got his ace queen in against Maher Nouira with king-queen. Nouira found his pair of kings and Lin was sent to the rail.
Nouira couldn't build on that momentum, losing a chunk of chips before getting the rest in against Kyle Cheong and losing out to Cheong's trip aces to bust in eighth.
Short stacked Aleksejs Ponakovs found a double up but then moments later lost a flip against Martirosian to bust out in seventh. By this point, Martirosian had built a stack of nearly one million and had took the lead.
It was time for the bubble and Cheong, who had a decent stack at the start of the final table, ran into Mikalai Vaskaboinikau's pocket kings to bust out just shy of the money.
A little over ten minutes later, Vaskaboinikau's run came to an end. He ran his ace queen into Martirosian's ace king to bust in fifth place. Martirosian further extended his lead.
By this point, Kulev found himself short and made a reshove against Plausinaitis. Kulev lost the flip and was eliminated in fourth place.
Leon Sturm had laddered up to third but was then firmly in the danger zone and well behind the other two players. He did manage to find a double up before busting in third to Martirosian, which brought Martirosian up to two million chips as play went heads-up.
Martirosian had a significant chip lead against Plausinaitis as heads-up ensued, but Plausinaitis got paid for his rivered flush to double up and bring the stacks back to even. After a bit of back and forth, Plausinaitis got his pocket nines in against Martirosian's pocket threes and held to leave Martirosian short.
The tables had turned and all that was left was for Plausinaitis to seal the deal. He did so with a simple shove holding ace six and was called by Martirosian holding king jack. Plausinaitis found an ace and it was all over.
Plausinaitis won the tournament, the trophy, and the top prize of $264,690.
That concludes the PokerNews coverage of the second $25,000 No-Limit Hold'em event. Stay tuned for much more to come at the EPT Cyprus, including the EPT Main Event.
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Imec reports on quantum computing progress – Electronics Weekly
Posted: at 6:43 am
Worldwide efforts are ongoing to scale up from hundreds to millions of qubits. Common challenges include well-controlled qubit integration in large-size wafer facilities and the need for electronics to interface with the growing number of qubits.
Superconducting quantum circuits have emerged as arguably the most developed platform. The energy states of superconducting qubits are relatively easy to control, and researchers have been able to couple more than a hundred qubits together.
This enables an ever-higher level of entanglement one of the pillars of quantum computing. Also, superconducting qubits with long coherence times (up to several 100s) and sufficiently high gate fidelities two important benchmarks for quantum computation have been demonstrated in lab environments worldwide.
In 2022, imec researchers achieved a significant milestone towards realizing a 300mm CMOS process for fabricating high-quality superconducting qubits. Showing that high-performing qubit fabrication is compatible with industrial processes addresses the first fundamental barrier to upscaling, i.e., improved variability and yield. Among the remaining challenges is the need to develop scalable instrumentation to interfacewith the growing number of noise-sensitive superconducting qubits.
In the longer term, much is expected from Si-spin-based qubits. Si spin qubits are more challenging to control than superconducting qubits, but they are significantly smaller (nm size vs. mm size) giving an advantage for upscaling.
Also, the technology is highly compatible with CMOS manufacturing technologies, offering wafer-scale uniformity with advanced back-end-of-line interconnection of the Si quantum dot structures.
However, Si-based quantum dot structures fabricated with industrial manufacturing techniques typically exhibit a higher charge noise. Their small physical size also makes the qubit-to-qubit and qubit-to-classical control interconnection more challenging.
The much-needed increase in qubits requires versatile and scalable solutions to control them and read out meaningful results. In early quantum processors today, external electronics circuits are used with at least one control line per qubit running from the room-temperature stage to the lowest temperature stage of the dilution refrigerator that holds the qubits.
This base temperature is as low as ten milliKelvin (mK) for superconducting quantum computing systems. Such an approach can be used for up to a few thousand qubits but cannot be sustained for large-scale quantum computers that require dynamic circuit operations such as quantum error correction.
Not only do the control and readout lines contribute to a massive I/O bottleneck at the level of the dilution refrigerator, but each wire also brings in heat to the cryogenic system with no budget left to cool them.
An attractive solution is to use CMOS-based cryo-electronics that hold RF (de-) multiplexing elements operating at the base temperature of the dilution refrigerator. Such a solution alleviates the I/O bottleneck as the number of wires that go from room to mK temperatures can be significantly reduced.
For the readout, for example, the multiplexers would allow multiple signals from a group of quantum devices to be switched to a common output line at the dilution refrigerator base temperature before leaving the fridge.
This approach has already been demonstrated for Si spin qubit quantum systems. However, thus far, the cryogenics electronics have not been interfaced with superconducting qubits due to their significantly lower tolerance to high-frequency electromagnetic noise. Be it in the form of dissipated heat or electromagnetic radiation, noise can easily disrupt fragile quantum superpositions and lead to errors.
Thats why the power consumption of the multiplexing circuits should be very low, well below the cooling budget of the dilution refrigerator. In addition, the multiplexers must have good RF performance, in terms of, for example, wideband operation and nanosecond scale switching.
Imec has demonstrated an ultralow power cryo-CMOS multiplexer for the first time that can operate at a record low temperature of 10mK. Being sufficiently low in noise and power dissipation, the multiplexer was successfully interfaced with high-coherence superconducting qubits to perform qubit control with single qubit gate fidelities above 99.9%.
This number quantifies the difference in operation between an ideal gate and the corresponding physical gate in quantum hardware. It is above the threshold for starting experiments like quantum error correction a prerequisite for realizing practical quantum computers that can provide fault-tolerant results. The results have been published in Nature Electronics [1].
The multiplexer chip is custom designed at imec and fabricated in a commercial foundry using a 28nm bulk CMOS fabrication technology. Record-low static power consumption of 0.6W (at a bias voltage (Vdd) of 0.7V) was achieved by eliminating or modifying the most power-hungry parts of a conventional multiplexer circuit as much as possible.
The easiest way to run the multiplexer is in static operation mode, which is very useful for performing single qubit characterizations. However, operations involving more than one qubit such as quantum error correction or large-scale qubit control will require a different approach allowing concurrent control of multiple qubits within a pulse sequence.
Imec researchers developed an innovative solution involving time division multiplexing of the control signals. This could provide an interesting basis for building future large-scale quantum computing system architectures.
Preliminary experiments show that the multiplexer can perform nanosecond-scale fast dynamic switching operations and is hence capable of doing active time division multiplexing while signal crosstalk is sufficiently suppressed. Currently, the team is working towards implementing a two-qubit gate based on the concept of time division multiplexing.
The experiments described in this work have been set up to contribute to developing large-scale quantum computers by reducing wiring resources. But they also bring innovations to the field of metrology.
Throughout the experiments, the ultralow noise performance of the multiplexing circuit at mK temperature was characterized for the first time using imecs superconducting qubits. In other words, the superconducting qubit can be used as a highly sensitive noise sensor, able to measure the performance of electronics that operate at ultralow temperatures and noise regimes that have never been explored before.
Figure 1 Routing microwave signals using cryo-multiplexers. a, Standard RF signal routing for measuring superconducting qubits in a dilution refrigerator. b, Scheme for multiplexing the control and readout signals at the base-temperature stage of a superconducting quantum computer. The required RF signals can be generated from either room-temperature electronics outside the dilution refrigerator or cryo-electronics operating inside. c, Schematic representation of the cryo-CMOS multiplexer. d, Optical image of the PCB onto which the cryo-CMOS multiplexer is wire bonded. e, Optical micrograph of the cryo-CMOS multiplexer chip (as published in Nature Electronics).
Si spin qubits are defined by semiconductor quantum dot structures that trap a single spin of an electron or hole. For optimal spin qubit control, the qubit environment must display low charge noise, the gate electrodes must be well-defined with small spacings for electrical tunability, and the spin control structure must be optimized for fast driving with lower dephasing.
High-fidelity Si spin qubits have been repeatedly demonstrated in lab environments in the few-qubit regime. Techniques for processing the qubit nanostructures, such as metal lift-off, are carefully chosen to achieve low noise around the qubit environment.
But these well-controlled fabrication techniques have a serious downside: they challenge a further upscaling towards larger numbers of qubits, as they cannot offer the required large-scale uniformity the very reason these methods were abandoned decades ago in the semiconductor industry at large.
Industrial manufacturing techniques like subtractive etch and lithography-based patterning, on the other hand, can offer wafer-scale uniformity, paving the way to technology upscaling. But they have been observed to degrade the qubit environment easily.
Additionally, qubit devices, like the closely spaced gate electrode and the spin control structures, arent regular transistor structures either and therefore deviate from the typical transistor roadmaps, requiring (costly) new development.
To make the device optimization more complex, the qubit performance depends largely on all these structures and on comprehensive optimizations of the full gate stack, metal electrode design, and spin control modules that are necessary for qubit performance.
Nevertheless, the overall device structure should still be compatible with the fabrication methods used for advanced, scaled transistors in commercial foundries to ensure a fair chance at upscaling.
At imec, researchers are tackling this conundrum through careful optimization and engineering of the fab qubit in a modular approach: different qubit elements are separately addressed and optimized as part of a state-of-the-art 300mm integration flow, ensuring forward compatibility with scaling requirements while satisfying the need for dedicated, non-standard device optimization as required by the challenging quantum environment.
Preliminary results on optimised structures look promising, highlighting 300mm fab integration as a compelling material platform for enabling high-quality Si-based spin qubits and upscaling studies.
The developments take advantage of the unrivalled uniformity offered by CMOS manufacturing techniques.
Figure 2 Si spin qubits manufactured with state-of-the-art 300mm integration flows.
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Imec reports on quantum computing progress - Electronics Weekly
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Quantum Computing Use Cases Are Getting Real: What You Need To Know – MobileAppDaily
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More swiftly than ever, quantum computing is evolving, which is a powerful reminder that the technology is rapidly moving toward being commercially useful. For instance, a Japanese research institution recently disclosed progress in entangling qubits that could improve quantum error correction and possibly open the door for massively parallel quantum computers.
Quantum computing startups are booming as technology advances and investment surges. Major technological firms are also advancing their quantum capabilities; firms like Alibaba, Amazon, IBM, Google, and Microsoft have already started offering for-profit quantum computing services.
In the current tech world, quantum computing is fit for certain algorithms like optimization, machine learning, and simulation. With the advent of such algorithms in quantum engineering, several use cases can be applied in diverse fields. Starting from finance, fraud detection, healthcare, supply chain management, chemicals, petroleum, and researching new materials are the areas that can have a primary impact.
This article will go into the details of the use cases of quantum computing. But first, let us look at the quantum computing meaning and explore the market overview of quantum computing technology. Lets start learning!
In the cutting-edge science of quantum computing, data is processed uniquely using concepts from quantum physics. Unlike classical computers, which utilize bits as the basic unit of data (0 or 1), quantum computers use quantum bits, also called qubits. Superposition, a characteristic of qubits that allows them to exist in numerous states concurrently, will enable them to do complex calculations at exponentially quicker rates for specialized jobs.
Innumerable fields, including materials science, artificial intelligence, and encryption, benefit greatly from quantum computing. Researchers and businesses worldwide are attempting to harness its potential and surpass huge technological obstacles, but it is still in its infancy.
One of the latest technology trends that has become widely adopted is quantum computing. A standard processor cannot build effective models to solve complicated issues with regular processing capacity because of the volume of data that businesses collectfor example, finding the greatest prime number to use in encryption.
Lets move ahead to witness the growing quantum computing market before moving to understand the use cases of quantum computing.
Let us explore the transformative benefits and potential uses of quantum computing. Discover the remarkable benefits that quantum engineering offers across diverse fields, from revolutionizing cryptography and accelerating drug discovery to supercharging artificial intelligence and addressing complex optimization problems.
Quantum computing can dramatically improve the process and provide numerous benefits in chemical simulation.
Scientists could use this increased computational power to investigate larger and more complex molecular structures, allowing them to achieve more accurate and detailed simulations of chemical systems due to the exponential complexity of the quantum world, which classical computers have difficulty simulating accurately.
A variety of approaches with differing degrees of accuracy and computational expense are used in quantum chemical simulations. Here are three examples:
Route planning and logistics are also changing due to quantum technology. By providing global routing optimization and regular re-optimizations, the use of quantum computers might drastically lower the cost of freight transportation and increase customer satisfaction.
The Quantum Approximate Optimization Algorithm (QAOA) is one of the most well-known algorithms in quantum optimization. QAOA combines traditional optimization methods with quantum computing to approximate solutions to optimization issues.
Another method that uses quantum fluctuations to locate ideal solutions at low energy levels is known as quantum annealing (QA). Applications of QA that are particularly helpful include the Quadratic Unconstrained Binary Optimization (QUBO) issue and the well-known NP-hard Ising model.
The potential role of quantum computing and AI in developing next-generation artificial intelligence (AI) is also significant. At the same time, it is still debatable whether QML will have any advantages, especially in light of the release of ChatGPT late last year.
For the status quo machine learning (ML) evolving in 2021, which is frequently constrained by a limited scope, an inability to adapt to new scenarios, and a lack of generalization skills, the capacity to handle complexity and keep alternatives open is a clear advantage. Artificial general intelligence (AGI) development may be made possible by a quantum computer, while some consider this the greatest risk.
Now that we have understood the benefits, lets move to learn the quantum computing use cases.
While we anticipate quantum advantage to be a reality by 2025, we assist businesses in identifying immediate and longer-term opportunities. Additionally, it goes beyond the uses of quantum computing for business. We also find applications that have significant potential for societal impact.
Several of the more intriguing use cases of quantum computing applications include:
Quantum computers can bring in $2 to $5 billion in operating revenue for financial institutions over the next ten years, coupled with quantum-inspired algorithms running on classical computers. The ability to handle uncertainty in decision-making more effectively is one of the primary benefits of quantum technology for financial actors. Applications include, among others, asset pricing, risk analysis, portfolio optimization, fraud detection, and capital allocation.
The ability of quantum technologies to perform multiple calculations at once makes them particularly well suited to issues that call for simulating situations with various distinct variables or selecting the best course of action from among several possibilities. This applies to a variety of financial sector quantum computing uses.
For instance, Spanish bank BBVA and quantum company Multiverse Computing have teamed up to optimize investment portfolios. The need to account for the effects of numerous external factors on the performance of assets is a well-known issue in finance. The test demonstrated that Multiverse's quantum-inspired computing techniques accelerated the process and could maximize profitability while minimizing risk.
Options pricing is another use in finance. The Swiss startup TerraQuantum is collaborating with the financial services firm Cirdan Capital to price a difficult class of "exotic options" using quantum-inspired algorithms. Typically, this is done using mathematical operations based on market simulations. According to the business, the first data indicate a 75% boost in pricing speed compared to conventional approaches.
Financial organizations are also looking at quantum computing to improve credit risk analysis. French startup PASQAL and Multiverse are working on a quantum approach for French bank Crdit Agricole to anticipate better credit rating downgrades in borrowers. Classical methods already exist for this problem but can't process the particularities of individual situations. The bank expects factorization in quantum computing use cases and algorithms to improve the efficiency of the process.
Pharmaceutical companies can screen bigger and more complicated molecules with quantum computing, map interactions between a medicine and its target more accurately, and accelerate the development process at a lower cost. Better immunizations, treatments, and diagnostics will be available sooner and more effectively.
To create a medicine, one must first choose the appropriate drug targetthe protein, DNA, or RNA in the body responsible for a specific diseaseand then create the chemical that will safely and efficiently affect that target. Finding the perfect combination is an expensive, time-consuming procedure still largely based on trial and error due to the infinite number of potential targets and compounds.
Qubit Pharmaceuticals, a startup based in Paris, builds digital twins of medicinal compounds using hybrid quantum algorithms. These quantum-based models can simulate how molecules interact with other components and anticipate behavior accurately since they can represent many chemical features. This eliminates the need to synthesize molecules, allowing scientists to create and examine molecules digitally. According to the business, the technique may cut the time needed to screen and choose prospective medication candidates in half and reduce the required investment by 10.
Weather forecasts are notoriously inaccurate because they rely on simulations using data from current weather conditions. A model far too vast for a conventional computer would be needed to accurately represent hundreds of parameters and analyze how they interact to predict the weather more precisely.
The capacity of quantum computers to consider a wide range of parameters may change the game. For instance, the German chemical company BASF is implementing PASQAL's technology into its weather-modelling applications to gain a quantum edge over traditional methods.
Enhancing battery design entails creating a new generation of more reliable, secure, and affordable gadgets. The main challenge is identifying the precise factors resulting in an improved material, like medication design.
The construction of more effective batteries may be made possible by quantum computers' ability to precisely model chemical processes at the atomic level, according to Finnish quantum firm IQM, which raised 128 million last year for its climate-focused technology. Phasecraft claims that quantum computers could more quickly model battery materials than current technology.
Delivering electricity to the network is a difficult and time-consuming task that involves precise synchronization and coordination of a massive network of sensors, communication infrastructure, data management systems, and control mechanisms. To complete this operation more quickly, quantum computers are a good choice.
Iberdrola, a Spanish utility firm, and Multiverse have teamed up to examine how quantum algorithms might improve the operation of power networks. The project's diverse use cases call for assessing various possible combinations. For instance, the company expects using quantum algorithms to make choosing the best places for batteries within an electrical network easier.
Numerous variables can affect how long it takes to go from point A to point B. To find the best way, quantum algorithms are being created to calculate how every route and every factor might affect one another.
For instance, the French startup Quandela is collaborating with the global corporation Thales to develop a quantum algorithm that might improve drone traffic. Thales predicts that conventional computers won't be able to consider all the factors that affect trajectory shortly as the number of drones operating in populated areas rises. These range from the technical flight limitations of drones to avoiding drone-drone collisions, taking into account the locations where drones are prohibited, and preserving battery life. Quantum algorithms might model all of these elements to identify the best route for each drone.
Predicting and identifying defective parts in production lines has great economic value for manufacturing. Still, it is difficult due to the massive amount of data that must be accounted for to generate such predictions. Multiverse and Bosch are working together to create digital twins that simulate the industrial line, predict where supply chains may break, and optimize when and where maintenance is required.
Similarly, PASQAL and BMW have collaborated to deploy quantum algorithms that can replicate the production of metallic pieces to detect faults and ensure that parts meet standards.
Molecular modeling enables breakthroughs such as more efficient lithium batteries. Quantum computing will allow us to model atomic interactions at much finer and greater scales. New materials can be employed in several quantum applications, including consumer goods, automobiles, and batteries. Without approximations, quantum computing will enable molecular orbit calculations.
A greater knowledge of the interactions between atoms and molecules will allow for the development of novel medications. Detailed DNA sequence analysis will aid in detecting cancer at an early stage by establishing models that will determine how diseases evolve.
Quantum technology will have the benefit of allowing for a scale-dependent, in-depth analysis of molecular behavior. Chemical simulations will enable the development of novel drugs or improve protein structure predictions, scenario simulations can improve the ability to predict the likelihood that a disease will spread or its risks, the solution of optimization problems will improve drug distribution chains, and finally, the application of AI will hasten diagnosis and provide more accurate genetic data analysis.
New methods for combating climate change can be made possible by quantum computing. Modeling molecular interactions involving 50 to 150 atoms, which classical computers cannot handle, is one of the early uses. Better and more effective chemical catalysts may be created, leading to lower emissions and more effective carbon capture and storage techniques. In the future, quantum technology might aid in creating stronger and lighter building materials for automobiles and aircraft.
The field of artificial intelligence (AI), which fundamentally alters how businesses run, presents both fresh chances for advancement and difficulties. According to the artificial intelligence guide, the power of AI to interpret and analyze data has significantly improved. Due to the complexity of workflows and the increasing amount of data that needs to be processed, AI is also computationally demanding.
We may be able to solve complicated issues that were previously intractable thanks to machine learning and quantum computing, which can also speed up processes like model training and pattern recognition. The three types of computing that will predominate in the future are classical, biologically inspired, and quantum.
The development of quantum machine learning algorithms like the Quantum-enhanced Support Vector Machine (QSVM), QSVM multiclass classification, variational quantum classifier, or qGANs has received a lot of attention in recent years because of the intersection of quantum computing and machine learning.
Let us dive into the example of a use case in quantum computing.
These are some of the most popular software platforms, but many more software platforms and libraries are being developed and utilized in quantum computing.
Quantum computers, in some ways, are transforming the world right now. First, engineering breakthroughs are announced regularly. ColdQuanta, for example, uses lasers to ultracool atoms to nanoKelvins or degrees above absolute zero to use as qubits. And that's just one illustration of how the quantum computing industry's engineering discoveries will help the planet.
Second, quantum physics is moving from theory to experiment. Using ColdQuanta as an example, physicists worldwide can create and experiment with Bose-Einstein Condensates (BEC), often known as "quantum matter," through their cloud-accessible Albert system. While Albert is not a quantum computer, its younger relative Hilbert will also use ultracold atom technologies.
Furthermore, computer science is progressing rapidly. Since Ewin Tang set the bar with recommendation systems, scientists have been motivated to speed up conventional algorithms using quantum algorithms. This quantum-inspired technique provides immediate benefits because classical algorithms can be implemented today. As it was following Ewin Tang's breakthrough, the challenge now is to create even more powerful quantum algorithms.
Finally, quantum computers are significantly less harmful to the environment than supercomputers. That estimate, by the way, includes the adoption of extreme refrigeration and all of the associated power consumption. However, certain qubit technologies work at ambient temperature and can eliminate the need for a dilution chiller, lowering energy use even more.
Quantum computers will not replace personal computers. Since it is more efficient, numerous programs will continue functioning on current devices. However, quantum computing applications go far beyond number factoring and unstructured search. In reality, the future of quantum computing appears to be good for almost everyone.
Despite recent significant advancements in the development of quantum computing hardware and algorithms, the technology still has few practical applications. Nevertheless, the use cases presented are sufficient evidence of the potential that quantum computing (or quantum mechanics) can offer us.
But as quantum computing technologies develop, more real-world applications will probably follow. But for now, we can only monitor the market and wait for well-researched use cases from some of the world's top businesses, research organizations, and people. Only then will we witness how quantum computing applications may improve our lives.
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UCalgary to provide hands-on quantum computing opportunities … – University of Calgary
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The University of Calgary and Xanadu, a leading quantum computing company, announce a new partnership to provide educational materials and support for UCalgarys thriving quantum ecosystem. Through this partnership, UCalgary and Xanadu aim to help students become confident and quantum-ready professionals prepared to contribute to Canadas growing quantum workforce.
UCalgary stands out for its entrepreneurial approach to quantum research and development, fostering student empowerment through leadership and participation in initiatives like the Institute for Quantum Science and Technology (IQST), Quantum City, and the Quantum Horizons Alberta initiative.
Moreover, the Faculty of Science is set to launch the Professional Master of Quantum Computing program in January 2024. This program is designed to provide students with the skills to understand and support quantum computing systems in practical settings, as well as gain practical experience through use cases and experiential learning.
To ensure students enrolled in the Professional Master of Quantum Computing program have access to cutting-edge quantum hardware and software, UCalgary has selected Xanadu, a Toronto-based company, as its inaugural official partner for support. Together, UCalgary and Xanadu will advance quantum computing education by integrating hands-on learning resources developed by Xanadu into existing courses at UCalgary.
This collaboration aims to generate a pipeline of highly skilled professionals in quantum computing. An illustration of this collaborative partnership in action can be seen in Xanadus participation in the upcoming qConnect 2023, which is co-hosted by Quantum City in November and focuses on connecting quantum creators and users.
Xanadu (follow on X @XanaduAI) is on a mission to build quantum computers that are useful and available to people everywhere. Since 2016, they have been building cutting-edge photonic quantum computers and making remarkable progress in the field, such as being one of three teams worldwide to achieve quantum computational advantage.
In addition to their hardware success, Xanadu leads the development of multiple open-source software libraries that have been the core of several research projects. Most notable of these libraries is PennyLane,an open-source software framework for quantum machine learning, quantum chemistry, and quantum computing with the ability to run on all hardware. Check out the PennyLane demos,a gallery of hands-on quantum computing content.
Fariba Hosseinynejad Khaledy
Using Xanadus quantum computers and software libraries like PennyLane, UCalgary and Xanadu will enable students to conduct research and develop new software applications while receiving dedicated training and custom-built educational tools to support their quantum journeys.
Dr. David Feder, PhD, associate professor at IQST has been instrumental in initiating and facilitating this partnership and supervises students like Fariba Hosseinynejad Khaledy. Khaledy is a current graduate student involved in a collaborative project between Feder and researchers from Xanadu.
She explains how the access to these resources allow her to continue her science career: I am thrilled to be a part of a project that not only aligns with my research interests but also holds the potential to transform our work into real-world applications. The prospect of contributing to this initiative with the resources that Xanadu provides is undeniably exciting. I firmly believe it's crucial for graduate students to embrace this perspective early in their studies and consider aligning their projects with industry trends and demands.
The collaboration between UCalgary and Xanadu will enhance UCalgarys new Professional Masters of Quantum Computing program and is a testament to the ecosystem building the Quantum City initiative is generating at the university and, more broadly, in Alberta.
Its fantastic to be partnering with UCalgary in this initiative to make top-tier quantum computing education more accessible to students. Its exciting to see top universities like UCalgary put in the work to support their students in the exploration of this exciting and promising field, says Jen Dodd, quantum community team lead at Xanadu.
Dr. Rob Thompson, associate vice-president (research) and director of research services at UCalgary,says, The field of quantum computing is growing rapidly, and we are committed to delivering the best quantum computing education, while also building an ecosystem for quantum science and technology in Alberta, through Quantum City.
Xanadus achievements coupled with a team that is dedicated to sharing their knowledge and building a better quantum community made them a clear choice to partner with in this exciting initiative at UCalgary.
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UCalgary to provide hands-on quantum computing opportunities ... - University of Calgary
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CEE Is Getting Ready for the Future with Quantum Technology: 25+ … – The Recursive
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Are you ready for the future? A future where calculation time drops from days to seconds, and information is processed in an entirely different way. A future where quantum computing, once a theoretical model for computing based on quantum phenomena, becomes a widespread technological reality and a commercial opportunity.
Unlike classical computers that use bits (0s and 1s) to process information, quantum computers use quantum bits or qubits, which can exist in multiple states simultaneously due to superposition. This allows quantum computers to handle vast amounts of data and perform computations in parallel.
As of now, innovators around the world are exploring various applications for these powerful machines. Quantum technology startups are multiplying and investors are taking notice:
What transistors did for the rapid advancement of electronic devices, quantum can do on a scale we cant fully grasp. With quantum, were on the cusp of tackling colossal challenges and playing in the same computational league as Mother Nature herself. Quantum computing holds the potential to revolutionize drug development, craft materials that dont yet have names, and conduct endless simulations without the constraints of reality. Its poised to rewrite the rules of learning by doing, from engineering new proteins to offering a Black Mirror-esque glimpse into the world of online dating, says Katerina Syslova, from Tensor Ventures, a Czech deep tech-focused fund investing in AI, IoT, blockchain, biotech, and quantum computing across the CEE and UK
Central and Eastern Europe, a bedrock to exceptional tech talent, is no stranger to quantum technology research and development, through its academic institutions, participation in European projects, and a sprouting startup scene.
Zooming back to Europe, VC investment in quantum tech startups concentrates on four main areas, according to The European Deep Tech Report 2023: quantum computers and processors ($362M), quantum cryptography ($156M), quantum computing software ($98M), and quantum chemistry and AI for chemical/biotech.
While the realization of quantum computing hasnt unfolded as swiftly as many anticipated, its adoption is undeniably making steady progress. Beyond companies pushing the boundaries of bare-metal hardware innovation, theres a notable surge in the quantum software realm. This includes not only software designed for quantum computers but also quantum-inspired algorithms that deliver remarkable results when run on conventional infrastructure, we are told by Enis Hulli, General Partner at 500 Emerging Europe, a venture capital fund investing in the region.
To experiment with quantum technology and achieve a minimum viable product requires substantial budgets. With budgets primarily allocated to testing purposes, companies are also limited in their ability to grow and scale.
Nevertheless, as the technology matures and demonstrates its worth, unlocking additional capital and larger budgets will become more attainable, similar to the growth trajectory observed in the field of AI, Enis Hulli believes.
Central and Eastern Europe is experiencing a notable upswing in interest and activity in the field of quantum technologies, says Hulli, further pointing to the participation of academic institutions and research centers in countries like Poland and Hungary in quantum research. Such projects in turn contribute to the growth of quantum knowledge and expertise within the region.
Hungary, for instance, has established a National Quantum Technology Programme (HunQuTech) to connect the country to the developing European quantum internet. Hungary is also the sole country from the region participating in the OpenSuperQplus European project, through the Faculty of Natural Sciences and the Wigner Research Centre for Physics at the Budapest University of Technology and Economics. The project aims to develop a 1000-qubit quantum computer.
It shouldnt be a surprise given CEEs access to a robust talent pool in mathematics and computer science, whose skills and expertise can be harnessed to drive innovation and advancement in quantum technologies.
A quantum technology startup scene is also emerging. As of October 2023, we tracked 18 Central and Eastern European quantum technology startups. Poland, in particular, sits among the countries with the highest number of startups working on quantum technologies (6 counted in the mapping below), behind only Switzerland, Spain, Netherlands, France, Germany, and the UK.
CEE innovators excel in one particular arena identifying technology gaps and challenges and then crafting tailor-made solutions. This may as well be the opportunity that CEE startups are uniquely poised to seize, observes Katerina Syslova from Tensor Ventures, who has invested in three quantum startups thus far, including Poland-based BeIT.
For investors, tapping into the opportunities presented by one of the most complex technologies out there is nothing short of a challenge.
We were smart enough to know we werent smart enough. So we partnered up with Michal Krelina, one of the best quantum experts there is. He is our guide and Vergiliuls in the landscape of technical due diligence. In our portfolio, were constructing interconnected stacks, and quantum is no exception, adds Katerina Syslova from Tensor Ventures.
All that said, building a comprehensive quantum ecosystem demands time, collaboration, and substantial funding.
However, its important to acknowledge that while CEE is making strides in quantum research and talent development, challenges remain in terms of securing the necessary infrastructure and funding, as well as competing on a global scale with quantum powerhouses like the United States, Canada, and China. To position itself effectively in the global quantum ecosystem, CEE must continue to foster academic and research collaborations, attract investment, and strengthen its overall quantum infrastructure, says Hulli.
Location: Ljubljana, Slovenia
Founders: Marjan Beltram, Peter Jegli
About: The company is designing cold neutral atoms QCs with a completely new and patented approach to preparing qubit arrays.
Stage & Funding: N/A
Location: Krakow, Poland
Founders: Wojtek Burkot, Paulina Mazurek, Witek Jarnicki
About: BEIT is a quantum computing software R&D company developing novel quantum algorithms and their implementations with the aim of pushing the boundary of what is possible on quantum hardware.
Stage & Funding: Seed, $4.1M
Location: Riga, Latvia
Founders: Girts Kronbergs, Maris Kronbergs, Girts Valdis Kristovskis
About: Entangle offers quantum-secure encryption for connecting mission-critical infrastructure and industrial IoT over public mobile networks.
Stage & Funding: Bootstrapped
Location: Zvodno, Slovenia
Founders: Andraz Bole, Nejc Lesek
About: Lightmass Dynamics provides Quantum Neural Models based-solution for simulation and visualization. The company offers an application framework that can be integrated into any existing physics or rendering software for real-time physics simulation and visualization.
Stage & Funding: Seed, $120,000
Location: Warsaw, Poland
Founders: Janusz Lewiski, Sebastian Gawlowski
About: Nanoxo is a chemical company designing and manufacturing various functional materials, including quantum dots.
Stage & Funding: Seed, $253,000
Location: Tallinn, Estonia
Founders: Guillermo Vidal
About: OpenQbit stands for the development of hardware and software easy to use with quantum technology. They provide anyone with the tools necessary to create devices that use quantum technology, machine learning, and neural networks.
Stage & Funding: N/A
Location: Patras, Archaia, Greece
Founders: Vasilis Armaos, Paraskevas Deligiannis, and Dimitris Badounas
About: The startups intention is to simulate drugs, chemicals, materials, and other quantum systems by utilizing quantum computing hardware that already exists. The team at PiDust is made up of quantum computing experts, physicists, software developers, and chemists.
Stage & Funding: N/A
Location: Bankya, Bulgaria
Founders: Boris Grozdanoff, Zdravko Popov, Svetoslav Sotirov
About: QAISEC foresees a future where AI technology serves humanity and does not endanger it. They believe that where human-made crypto algorithms fail physics never does. They are using quantum encryption solutions for finance, industry, state, entertainment, healthcare, critical infrastructure, and communications.
Stage & Funding: N/A
Location: Wroclaw, Poland
Founders: Artur Podhorodecki
About: They develop blue-light emitting, heavy metal-free quantum dots for advanced technology markets, and quantum dot-based inks, for printable optoelectronics.
Stage & Funding: early VC, $5.8M
Location: Prague, Czech Republic
Founders: Michal Krelina
About: Quantum.Phi provides consulting, analytics, and research services in quantum technologies (including quantum computing and simulation, quantum network and communication, quantum imaging, and quantum measurement). It specializes in applications for the space, security, and defense industry.
Stage & Funding: N/A
Location: Warsaw, Poland
Founders: Piotr Migda, Ph.D., Klem Jankiewicz
About: The company develops a no-code integrated development environment (IDE) for quantum computers to design, debug, unit-test, and deploy quantum algorithms for business.
Stage & Funding: Seed, $260,000
Location: Athens, Greece
Founders: Dr. Aggelos Tiskas, Dr. Takis Psarogiannakopoulos
About: The companys High-Performance Quantum Simulator (HPQS) is designed to specialize in Variational Quantum Algorithms (VQAs) and Machine Learning (ML) tasks. This will enable the automation of high-level, abstract quantum circuit generation and optimize it for efficient resource usage.
Stage & Funding: N/A
Location: Miercurea-Ciuc, Romania
Founders: Laureniu Ni
About: Quarks Interactive is the startup that developed Quantum Odyssey, the first game where you can learn the concepts of quantum computing. The startup also works with big IT companies, such as IBM, to create software that can power these unique computers.
Stage & Funding: Seed, 230,000
Location: Tallinn, Estonia
Founders: Petar Korponai
About: Quantastica builds software tools and solutions for hybrid quantum-classical computing.
Stage & Funding: $220,000
Location: d, Poland
Founders: Tomasz Szczeniak, Michal Andrzejczak,
About: They are building a cryptography accelerator through which any electronic device can be protected against quantum computer attacks. They use post-quantum standards recommended by the National Institute of Standards and Technology (NIST) for secure end-to-end encryption. One of the main features of the solution is crypto agility, enabling a wide area of application.
Stage & Funding: Seed, 450,000
Location: Zagreb, Croatia
Founders: Hrvoje Kukina
About: A Quantum AI startup working on quantum-enhanced machine learning (mostly deep reinforcement learning).
Stage & Funding: N/A
Location: Kepno, Wielkopolskie, Poland
Founders: Arkadii Romanenko, Igor Lykvovyi, Leszek Sawicki, Ruslana Dovzhyk
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CEE Is Getting Ready for the Future with Quantum Technology: 25+ ... - The Recursive
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Research leaders at Boise state are taking the science of quantum … – Boise State University The Arbiter Online
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From humble beginnings of one small room in the RUCH Engineering Building, to now expansive multi-million dollar laboratories in the Micron Center for Material Research building, the world-class materials research at Boise State University exists no where else in the world according to Dr. Ryan Pensack, qDNAs Ultrafast Laser Spectroscopy Team Lead.
In the last six years, the Nanoscale Materials and Device group has developed its facilities in leaps and bounds. Researchers Bernie Yurke, Will Huges, Jeunghoon Lee and Elton Graugnard since 2000 have advanced the research progress.
Now, the Nanoscale Materials and Device Group branched off into research areas and fields of study to include nanophotonics, gate oxide studies, multi-dielectric dand diagram programs, magnetic shape memory alloys, 3-D tech for advanced sensor systems and DNA nanotechnology.
Under the DNA nanotechnology field, a research group has been established the Quantum DNA Research Group (qDNA). The collaboration of five science and engineering teams, one management team with over 30 faculty, staff and students ranging 10 academic disciplines resulted in what the university is known for: innovation.
Dr. Ryan D. Pensack was hired on as the lead for qDNAs Ultrafast Laser Spectroscopy Team after his position from 2015-2017 as a postdoctoral research associate in the research group of Prof. Gregory Scholes at Princeton University.
From 2012-2015, he was a postdoctoral fellow in Scholes group at the University of Toronto. Alongside Pensack, Dr. Paul H. Davis led the tour exhibiting the achievements of the research team.
The collaboration Id say is unique, it sets us up to be competitive nationally and internationally actually, said Pensack during The Arbiters tour of the laboratories, led by both Pensack and Dr. Paul H. Davis.
Funding from the Department of Energy, Idaho National Laboratory, Laboratory Directed Research and Development, Office of Naval Research and other supporters provided the equipment the teams work with. In 2021, the Department of Energy granted the qDNA Team $5 million to further their efforts into phase II of attempting quantum entanglement.
For those unfamiliar with the term, quantum entanglement is a phenomenon when two particles become strongly dependent on one another and the physical states of those particles cannot be recognized as separate from the other. Dr. Pensack and Dr. Davis use the metaphor of a spinning coin to create a visual for quantum entanglement.
Dr. Paul Davis serves as the surface science lab manager, co-lead and co-director on the Ultrafast Spectroscopy Team.
When its spinning, its neither heads nor tails, and thats what the cubit is a superposition state, both heads and tails, Davis said.
Later, Pensack explained this through a demonstration with coins. When spun, the blue side and the orange side of the coin are continually moving. Davis said how the number of revolutions of a coin (particle) relates to the speed of the spinning, and the speed of the spinning relates to the strength of coupling. The length of a spinning coin or particle is referred to as its lifetime.
The excited state of these particles give off energy as a resource, which can be a tool for development in quantum mechanics; therefore, quantum computing.
In quantum information science we think about a third state which is actually a combination of the two: its the spinning coin heads or tails, blue or orange, Pensack said.
On Sept. 20, Nanoscale Materials and Device Group published the High-sensitivity electronic Stark spectrometer featuring a laser-driven light source in the Review of Scientific Instruments. The Stark spectrometer was engineered by the Ultrafast Spectroscopy Team. Spectrometers are used to measure wavelengths of light in relation to matter.
The spectrometer measures the property of pigments that enables them to interact such that we can realize entanglement, Pensack said.
Dr. Katelyn Duncan, a postdoctoral research fellow, and Dr. Johnathan Huff, a graduate research assistant, offered their insight on the instrument, mentioning that the entire setup is custom made and built according to Duncan. She alongside Pensack and Huff finalized measurements together.
Huff walked The Arbiter through the samples they utilized on the instrument, such as dye solutions, and the process of how the Stark Spectrometer works.
The work the qDNA team has done has received national recognition. Two of the teams technical manuscripts were featured in National Nanotechnology Initiative (NNI), the National Nanotechnology Initiative Supplement to the Presidents 2023 Budget submitted to Congress March 8, 2022. The team has submitted over 30 technical manuscripts and academic articles, in 2023 the dDNA published 12 articles so far.
We are all very passionate about what we do, Pensack said. While our main mission is this notion of room temperature quantum computing, there will be spin-offs of what we do. The new knowledge we create could be used to help serve society.
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