The study of quantum effects on electrons and their interaction with other particles, especially photons. Usually it is considered as part of a larger context.
Quantum applied science is a young discipline of physics and technology, which transitions, some of the stranger characteristics of quantum mechanics, especially quantum entanglement and most recently quantum tunneling, into virtual applications such as quantum computing, quantum coding, quantum simulation, quantum metrology, quantum sensing, and quantum imaging.
A single unit of quantum is called a quantum or a quantum of energy.
Coulomb blockade diamonds are microstructures made of diamond material that exhibit quantum mechanical effects, specifically the Coulomb blockade effect, due to their nanoscale dimensions. These diamonds are used in research areas such as quantum computing and quantum electronics due to their exceptional properties like electrical stability and low noise characteristics.
Quantum filaments are important in advanced materials research because they exhibit unique properties at the nanoscale level, such as high strength and conductivity. These properties can be harnessed for developing new materials with enhanced performance in various applications, including electronics, energy storage, and sensors. Understanding and manipulating quantum filaments can lead to the creation of innovative materials that could revolutionize technology and industry.
The four quantum numbers for germanium are: Principal quantum number (n) Azimuthal quantum number (l) Magnetic quantum number (ml) Spin quantum number (ms)
IEEE Journal of Quantum Electronics was created in 1965.
P. A. Lindsay has written: 'Introduction to quantum electronics' -- subject(s): Quantum electronics
Ronald E. Meyers has written: 'Quantum communications and quantum imaging VII' -- subject- s -: Quantum optics, Congresses, Optical communications, Quantum electronics
Supriyo Datta has written: 'Quantum phenomena in semiconductor microstructures' -- subject(s): Semiconductors, Quantum electronics, Microstructure
Anasuya Erin Krishnaswamy has written: 'Nonequilibrium electron transport in quantum dot and quantum point contact systems' -- subject(s): Quantum electronics, Electron transport
D. B Peterson has written: 'Review of solar fuel-producing quantum conversion processes' -- subject(s): Quantum electronics
John Robinson Pierce has written: 'Electrons and waves' -- subject(s): Electronics, Popular works, Telecommunication 'The science of musical sound' -- subject(s): Acoustics and physics, Music, Psychological aspects, Psychological aspects of Music, Sound 'Quantum electronics and Waves and messages' -- subject(s): Collected works, Electronics, Quantum electronics, Telecommunication 'Introduction to communication science and systems' -- subject(s): Telecommunication 'Almost all about waves' -- subject(s): Waves 'Traveling-wave tubes' -- subject(s): Traveling-wave tubes 'Waves and messages' -- subject(s): Telecommunication 'Quantum electronics'
Quantum Computers,3g technology,latest robots,DNA computers
J. C. Slater has written: 'Concepts and development of quantum physics' 'Microwave electronics'
Anas N. Al-Rabadi has written: 'Parallel computing using reversible quantum systolic networks and their super-fast array entanglement' -- subject- s -: Parallel processing - Electronic computers -, Quantum computers, Quantum electronics, Systolic array circuits
W. P. Jolly has written: 'Low noise electronics' -- subject(s): Electronic noise, Quantum electronics 'Cryoelectronics' -- subject(s): Cryoelectronics, Electronics, Materials, Materials at low temperatures, Superconductors 'Physics for electrical engineers' 'Electronica / Electronics (Aprende Tu Solo / Learn on Your Own)' 'Electronics' -- subject(s): Electronic apparatus and appliances 'Physics for Electrical Engrs'
Computers can be considered a branch of science. It involves electronics, quantum physics and media studies amongst other topics.