Quantum Technology Market 2022

Language:
Japanese
Product Code No:
C63127300
Issued In:
2022/02
#of Pages:
275
Publication Cycle:
  
Format:
PDF

Price

150,000 yen ($1,095.29)
(excluding consumption tax)
300,000 yen ($2,190.58)
(excluding consumption tax)
450,000 yen ($3,285.87)
(excluding consumption tax)
* Equivalent value in US$ (Today's rate : $1= 136.95 yen , 2022/08/20 Japan)

Coverage: (Product/service)

Quantum Simulation, Quantum Sensing, Quantum Cryptography Communication, Quantum Life Science, Quantum Properties, Quantum Materials and Quantum AI

Research Target:

R&D Institutions, enterprises, organizations studying/developing quantum technologies

Research Content:

I. Quantum Simulation

  • Quantum simulation methods in this research include ultracold atom–based simulators, solid state-based simulators, semiconductor-based simulators, and trapped-ion-based simulators. Progress is witnessed in quantum spin model simulation.

 
1.What is Quantum Simulation?
2.Quantum Simulator made a Great Leap
3.Quantum Simulation Methods
  3-1.Ultracold atom-based 
  3-2.Superconducting qubits
  3-3.Trapped ions
4.Forecast of Quantum Simulation Market Size
5.Domestic Enterprises and R&D Institutions Studying Quantum Simulation
6.Perspectives of Quantum Simulation
 

II. Quantum Sensing

  • Quantum sensing in this research includes technology for controlling/operating/observing quantum property and technology for sensing impacts from surrounding environment; early realization expected 
 
1.What is Quantum Sensing?
2.Noteworthy Trends of Quantum Sensing
  2-1.Diamond NV center
  2-2.Inertial quantum sensors
  2-3.Sensors using quantum entangled photons
  2-4.Optical lattice clocks
  2-5.Quantum Spintronics Sensors
3.Forecast of Quantum Sensing Market Size
4. Global Trends regarding R&D of Quantum Sensing
5.Domestic Enterprises and R&D Institutions Studying Quantum Sensing
6. Perspectives of Quantum Sensing
 

III. Quantum Cryptography Communications 

  • Urgent needs for establishing quantum cryptography communications network to ensure secure data exchange in the era of quantum computing
 
1.What is Quantum Cryptography?
2.Wide-area Quantum Cryptographic Communication Network
3.Technologies regarding Quantum Cryptography 
  3-1.Quantum key distribution (QKD)
  3-2.Trusted node technology
  3-3.Quantum communications link technology
  3-4.Quantum relay technology
  3-5.Wide-area network construction and operation technology
4.Forecast of Quantum Cryptography Communications Market Size
5.Domestic Enterprises and R&D Institutions Studying Quantum Cryptography Communications
 

IV. Quantum Life Science

  • Rise of quantum life science, which aims to explain fundamentals of life based on quantum mechanics that regards biomolecule as quantum aggregates
 
1.What is Quantum Life Science? 
2.Noteworthy Fields of Quantum Life Science
  2-1.Biological nano quantum sensors
  2-2.High performance MRI/NMR
  2-3.Decoding/imitating biological objects and problems through quantum mechanics
3.Forecast of Quantum Life Science Market
4.National Quantum Science Initiatives
  4-1.Start of quantum life science
  4-2.”Headquarter of Quantum Life Science” as one of the ”Quantum Science and Technology Innovation Centers” in the national “Quantum Technology Innovation Strategy” roadmap
  4-3.Quantum Leap Flagship Program (Q-LEAP)
5.Domestic Enterprises and R&D Institutions Studying Quantum Life Science
6.Perspectives of Quantum Life Science
 

V. Quantum Property

  • Central issue in the electron theory of solids; in order to understand quantum properties including strongly correlated electron systems, behavior of electrons in solid must be explained
 
1.What are Quantum Properties?
2.Noteworthy Quantum Properties
  2-1.Atomic/molecular/nano properties
  2-2.Photonics
  2-3. Cryogenic properties
  2-4.Ultra-high pressure properties
3.Forecast of Quantum Property Market Size
4.Domestic Enterprises and R&D Institutions Studying Quantum Properties
5.Mechanism of High-temperature Superconductors to be Explained 
 

VI. Quantum Materials

  • Quantum materials that focus on properties such as new functionality, high-quality, refinement and cutting-edge properties;quantum materials are indispensable for development of electronics industry
1.Noteworthy Quantum Materials
  1-1.Superconductors
  1-2.Single-layer materials (consisting of a single layer of atoms)
  1-3.Topological insulators
  1-4.Quantum confined materials
  1-5.Photonic materials
  1-6.Quantum spintronics materials
2.Forecast of Quantum Material Market Size
3.Domestic Enterprises and R&D Institutions Studying Quantum Materials
4.Perspectives of Quantum Materials
 

VII. Quantum AI

  • Utilization of quantum computing for computation of machine learning algorithms opens up new horizons
 
1.Progress of AI is Accelerated
2.What is Quantum AI?
3.Forecast of Quantum AI Market Size
4.Domestic Enterprises and R&D Institutions Studying Quantum AI
5.How Quantum Computing Shapes Future of AI and Mankind 

Price

written in Japanese
150,000 yen ($1,095.29)
(excluding consumption tax)
300,000 yen ($2,190.58)
(excluding consumption tax)
450,000 yen ($3,285.87)
(excluding consumption tax)
* Equivalent value in US$ (Today's rate : $1= 136.95 yen , 2022/08/20 Japan)