DUBLIN, April 20, 2020 /PRNewswire/ -- The "Emerging Opportunities of Quantum Technologies in Electronics Industry" report has been added to ResearchAndMarkets.com's offering.

Research and Markets Logo

Key Questions Addressed

Quantum technology, which enables the manipulation of atoms and sub-atomic particles, will allow for a new class of ultra-sensitive devices with key potential to profoundly impact and disrupt significant applications in areas such as defense, aerospace, industrial, commercial, infrastructure, transportation and logistics markets.

The ability to control and predict the behavior of atoms and ions has key opportunities to enable exquisitely sensitive sensors for application such as ultra-precise navigation, improved location of buried objects, enhanced geophysical or resource exploration, as well as ultra-precise measurement of time, computers able to solve very complex problems much faster than classical computers, considerably more secure and rapid data communications, and imaging in previously impossible conditions with greatly enhanced resolution.

Quantum technology is also driving advancements in more compact lasers, microfabricated atom/ion traps and diffraction gratings for trapping and cooling atoms, single-photon detectors for applications such as enhanced imaging and quantum cryptography, microfabricated vapor cells containing atomic vapors or optically cooled atoms.

Key Topics Covered

1. Executive Summary1.1 Scope of Research1.2 Research Methodology1.3 Research Methodology Explained1.4 Key Findings - Quantum Electronics Finds Applications in Submarines and Satellites1.5 Key Findings - Quantum Magnetometers Generate Interest in Navigation

2. Quantum Electronics Technology Landscape - Status Review2.1 Quantum Electronics will Disrupt Industrial, Defense, Security, and Healthcare Markets2.2 Applications of Different Types of Quantum Electronics2.3 Factors Driving the Adoption of Quantum Electronics2.4 Miniaturization is a Major Challenge for Adoption of Quantum Electronics

3. Quantum Inertial Sensors3.1 Quantum Gyroscopes and Accelerometers Provide Enhanced Sensitivity3.2 Quantum Inertial Sensors Have Opportunities to Disrupt Conventional Navigation Systems and MEMS Sensors3.3 Application Impact of Quantum Inertial Sensors3.4 Recent Developments with Stakeholders - Quantum Inertial Sensors3.5 Quantum Inertial Sensors are Gaining Investments

4. Quantum Gravity Sensors4.1 Quantum Gravity Sensors - Overview4.2 Gravity Sensing: An Earlier Opportunity for Quantum Accelerometers4.3 Application Landscape of Quantum Gravity Sensors4.4 Gap Analysis: Quantum Gravity Sensors Opportunities and Challenges4.5 Recent Developments with Stakeholders - Quantum Gravity Sensors

5. Quantum Magnetometers5.1 Quantum Magnetometers - Overview5.2 Application Diversity of Quantum Magnetometers5.3 Quantum Magnetometers find Applications in Precision Location Detection5.4 Opportunities Driving Adoption of Quantum Magnetometers5.5 Factors Hindering Adoption of Quantum Magnetometers5.6 Stakeholder Developments - Quantum Magnetometers

6. Quantum Clocks6.1 Quantum Clocks Enable Precision Timing6.2 Opportunities of Quantum Clocks6.3 Challenges Hindering Adoption of Quantum Atomic Clocks6.4 Applications for Quantum Atomic Clocks6.5 Stakeholder Developments - Quantum Magnetometers6.6 Stakeholders are Collaborating with Universities for Quantum Developments

7. Quantum Computing7.1 Quantum Computers have Unprecedented Computational Power7.2 Opportunities of Quantum Computing7.3 Factors Hindering Adoption of Quantum Computing7.4 Applications of Quantum Computing Across Different Industries7.5 Stakeholder Developments and Recent Research in Quantum Computing7.6 Kagome Metal finds Applications in Quantum Computers7.7 Nitrogen-Vacancy Diamonds have the Potential to Retain Quantum Information

8. Quantum Communications8.1 Quantum Repeaters and Quantum Key Distribution play Key Roles in Enabling Quantum Communication8.2 Opportunities Driving Quantum Communications8.3 Factors Hindering Adoption of Quantum Communications8.4 Stakeholder Developments - Quantum Computing8.5 Recent Research in Quantum Computing Enables Development of Quantum Random Number Generator

9. Impact of Quantum Technologies on COVID-199.1 Opportunities to Combat Coronavirus (COVID-19)9.2 Use of Supercomputers to Study COVID-19 Impact Creates Potential Applications of Quantum Computing

10. Quantum Electronics Ecosystem and Supply Chain Analysis10.1 Quantum Technology Ecosystem Components10.2 Key Types of Participants in the Quantum Supply Chain10.3 Other Participants in the Quantum Supply Chain

11. Industry Best Practices - Assessment of Partnerships/Alliances and Recent Developments11.1 Advancements in Quantum Entanglement Pave the Way for Quantum Internet11.2 Recent Partnerships Drive Developments in Quantum Computing

12. Technology Roadmap & Growth Opportunities12.1 Quantum Electronics Roadmap12.2 Strategic Investments Drive Adoption of Quantum Technologies

13. Industry Contacts13.1 Key Industry Contacts

Story continues

Originally posted here:
Quantum Technologies 2020: Impact on COVID-19, Ecosystem & Supply Chain Analysis, Industry Best Practices, Technology Roadmap and Growth...