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  • Quantum Effect Devices
  • Microprocessor design company

    Quantum Effect Devices, Inc. (QED), was a microprocessor design company incorporated in 1991 as Quantum Effect Design. It was based in Palo Alto, California

    Quantum Effect Devices

    Quantum_Effect_Devices

  • Quantum tunnelling
  • Quantum mechanical phenomenon

    the tunnel diode, quantum computing, flash memory, and the scanning tunnelling microscope. Tunnelling limits the minimum size of devices used in microelectronics

    Quantum tunnelling

    Quantum_tunnelling

  • R5000
  • 64-bit microprocessor developed in 1996

    Press release. Quantum Effect Devices (24 March 1997). "QED Introduces RM52xx Microprocessor Family". Press release. Quantum Effect Devices (29 September

    R5000

    R5000

    R5000

  • Quantum dot display
  • Type of display device

    A quantum dot display is a display device that uses quantum dots (QDs), semiconductor nanocrystals which can produce pure monochromatic red, green, and

    Quantum dot display

    Quantum dot display

    Quantum_dot_display

  • Quantum Zeno effect
  • Quantum measurement phenomenon

    In quantum mechanics, frequent measurements cause the quantum Zeno effect, a reduction in transitions away from the system's initial state, slowing a system's

    Quantum Zeno effect

    Quantum Zeno effect

    Quantum_Zeno_effect

  • SQUID
  • Type of magnetometer

    A SQUID (superconducting quantum interference device) is a very sensitive magnetometer used to measure extremely weak magnetic fields, based on superconducting

    SQUID

    SQUID

    SQUID

  • Observer effect (physics)
  • Fact that observing a situation changes it

    observer effect occurs in quantum mechanics, as demonstrated by the double-slit experiment. Physicists have found that observation of quantum phenomena

    Observer effect (physics)

    Observer_effect_(physics)

  • Quantum computing
  • Computer hardware technology that uses quantum mechanics

    certain quantum devices can outperform classical computers on narrowly defined tasks, a milestone referred to as quantum advantage or quantum supremacy

    Quantum computing

    Quantum computing

    Quantum_computing

  • QED
  • Topics referred to by the same term

    virtualization QED (text editor), a 1960s line-oriented editor Quantum Effect Devices, a microprocessor design company Quod Erat Demonstrandum, a 1903

    QED

    QED

  • Applications of quantum mechanics
  • Theories, models and concepts that go back to the quantum hypothesis of Max Planck

    location. Many electronic devices operate using the effect of quantum tunneling. Flash memory chips found in USB drives use quantum tunneling to erase their

    Applications of quantum mechanics

    Applications_of_quantum_mechanics

  • Quantum dot
  • Nano-scale semiconductor particles

    layers and overall size of the quantum dots can affect the photoluminescent emission wavelength — the quantum confinement effect tends to blueshift the emission

    Quantum dot

    Quantum dot

    Quantum_dot

  • MIPS architecture processors
  • Processors using some version of the MIPS architecture

    microprocessor, the NEC VR4300, was used in the Nintendo 64 game console. Quantum Effect Devices (QED), a separate company started by former MIPS employees, designed

    MIPS architecture processors

    MIPS_architecture_processors

  • Tunnel field-effect transistor
  • Experimental transistor

    mechanism differs, making this device a promising candidate for low power electronics. TFETs switch by modulating quantum tunneling through a barrier instead

    Tunnel field-effect transistor

    Tunnel field-effect transistor

    Tunnel_field-effect_transistor

  • Josephson effect
  • Quantum physical phenomenon

    quantum interference devices, are very sensitive magnetometers that operate via the Josephson effect Superfluid helium quantum interference devices (SHeQUIDs)

    Josephson effect

    Josephson effect

    Josephson_effect

  • Field-effect transistor
  • Type of transistor

    Jun-Ichi (1982). "Junction Field-Effect Devices". In Sittig, Roland; Roggwiller, P. (eds.). Semiconductor Devices for Power Conditioning. Springer. pp

    Field-effect transistor

    Field-effect transistor

    Field-effect_transistor

  • Casimir effect
  • Force resulting from the quantisation of a field

    In quantum field theory, the Casimir effect (or Casimir force) is a physical force acting on the macroscopic boundaries of a confined space which arises

    Casimir effect

    Casimir effect

    Casimir_effect

  • Photoelectric effect
  • Emission of electrons when electromagnetic radiation hits a material

    state, and quantum chemistry to draw inferences about the properties of atoms, molecules and solids. The effect has found use in electronic devices specialized

    Photoelectric effect

    Photoelectric effect

    Photoelectric_effect

  • SGI Indigo2
  • Workstation computers

    CPU variants: the 100 to 250 MHz MIPS R4000 and R4400, and the Quantum Effect Devices R4600 (IP22 mainboard); the 75 MHz MIPS R8000 (IP26 mainboard);

    SGI Indigo2

    SGI Indigo2

    SGI_Indigo2

  • Topological quantum computer
  • Type of quantum computer

    A topological quantum computer is a type of quantum computer. It utilizes anyons, a type of quasiparticle that occurs in two-dimensional systems. The

    Topological quantum computer

    Topological quantum computer

    Topological_quantum_computer

  • Optoelectronics
  • Branch of electronics involving optics

    tubes charge-coupled imaging devices Stimulated emission, used in: injection laser diodes quantum cascade lasers Lossev effect, or radiative recombination

    Optoelectronics

    Optoelectronics

    Optoelectronics

  • Quantum well
  • Concept in quantum mechanics

    semiconductor devices that can have very fine-tuned properties. Semiconductor materials and devices, and particularly those based on quantum wells, have

    Quantum well

    Quantum well

    Quantum_well

  • Quantum-cascade laser
  • Optical instrument

    Quantum-cascade lasers (QCLs) are semiconductor lasers that emit in the mid- to far-infrared portion of the electromagnetic spectrum and were first demonstrated

    Quantum-cascade laser

    Quantum-cascade_laser

  • Aharonov–Bohm effect
  • Electromagnetic quantum-mechanical effect in regions of zero magnetic and electric field

    The Aharonov–Bohm effect, sometimes called the Ehrenberg–Siday–Aharonov–Bohm effect, is a quantum-mechanical phenomenon in which an electrically charged

    Aharonov–Bohm effect

    Aharonov–Bohm effect

    Aharonov–Bohm_effect

  • PowerPC 600
  • Family of PowerPC processors

    CPUShack On October 21, 1996, the fabless semiconductor company Quantum Effect Devices (QED) announced a PowerPC 603-compatible processor named "PowerPC

    PowerPC 600

    PowerPC_600

  • Hall effect
  • Electromagnetic effect in physics

    observe the quantum Hall effect, in which the Hall conductance σ undergoes quantum Hall transitions to take on quantized values. The spin Hall effect consists

    Hall effect

    Hall effect

    Hall_effect

  • Short-channel effect
  • Undesirable effects in MOSFETs when the channel length is short

    velocity saturation, quantum confinement and hot carrier degradation. Channel length modulation Reverse short-channel effect F. D’Agostino, D. Quercia

    Short-channel effect

    Short-channel_effect

  • Quantum optics
  • Sub-field of quantum physics and optics

    atomic physics and quantum electronics in 1960. Laser science—i.e., research into principles, design and application of these devices—became an important

    Quantum optics

    Quantum_optics

  • Macroscopic quantum phenomena
  • Macroscopic processes showing quantum behavior

    macroscopic quantum phenomena are superfluidity and superconductivity; other examples include the quantum Hall effect, Josephson effect and topological

    Macroscopic quantum phenomena

    Macroscopic_quantum_phenomena

  • Quantum cryptography
  • Cryptography based on quantum mechanical phenomena

    schemes, or in quantum communication links and networks. These advantages make quantum cryptography important in the digital age, where devices are increasingly

    Quantum cryptography

    Quantum_cryptography

  • Quantum mind
  • Fringe hypothesis

    The quantum mind or quantum consciousness is a group of hypotheses proposing that local physical laws and interactions from classical mechanics or connections

    Quantum mind

    Quantum_mind

  • Quantum capacitance
  • Type of capacitance

    variety of devices using 2DEGs, which only work because of the low 2DEG density-of-states, and its associated quantum capacitance effect. For example

    Quantum capacitance

    Quantum_capacitance

  • Multigate device
  • MOS field-effect transistor with more than one gate

    most widely used multi-gate devices are the FinFET (fin field-effect transistor) and the GAAFET (gate-all-around field-effect transistor), which are non-planar

    Multigate device

    Multigate device

    Multigate_device

  • Hanbury Brown and Twiss effect
  • Quantum correlations related to wave-particle duality

    depend on whether the beam is composed of fermions or bosons. Devices which use the effect are commonly called intensity interferometers and were originally

    Hanbury Brown and Twiss effect

    Hanbury_Brown_and_Twiss_effect

  • R4600
  • Microprocessor

    R4600, code-named "Orion", is a 64-bit microprocessor developed by Quantum Effect Design (QED) that implemented the MIPS III instruction set architecture

    R4600

    R4600

    R4600

  • Quantum-confined Stark effect
  • Effect in quantum electronics

    The quantum-confined Stark effect (QCSE) describes the effect of an external electric field upon the light absorption spectrum or emission spectrum of

    Quantum-confined Stark effect

    Quantum-confined_Stark_effect

  • Rashba effect
  • Momentum-dependent division of spin bands in two-dimensional condensed matter systems

    scale quantum computer and these immune states are therefore considered good candidates for a quantum bit. Discovery of the giant Rashba effect with α

    Rashba effect

    Rashba effect

    Rashba_effect

  • Reactionless drive
  • Propulsion system creating motion without propellant

    oscillation devices, microwave-cavity thrusters such as the EmDrive and Cannae drive, the helical engine, Mach-effect or MEGA drives, quantum drive claims

    Reactionless drive

    Reactionless drive

    Reactionless_drive

  • Superconducting quantum computing
  • Quantum computing implementation

    quantum computing is a branch of quantum computing and solid-state physics that implements superconducting electronic circuits as qubits in a quantum

    Superconducting quantum computing

    Superconducting quantum computing

    Superconducting_quantum_computing

  • OLED
  • Diode that emits light from an organic compound

    Electronic devices created by various printing methods Quantum dot display – Type of display device Roll-to-roll processing – Electronic device manufacturing

    OLED

    OLED

    OLED

  • Majorana 1
  • Quantum computing chip by Microsoft

    the absence of definitive public evidence that the devices exhibits Majorana zero modes. Quantum computing research has historically faced challenges

    Majorana 1

    Majorana_1

  • Quantum key distribution
  • Secure communication method

    Quantum key distribution (QKD) is a secure communication method that implements a cryptographic protocol based on the laws of quantum mechanics, specifically

    Quantum key distribution

    Quantum_key_distribution

  • Quantum decoherence
  • Loss of quantum coherence

    Quantum decoherence is the loss of quantum coherence. It involves generally a loss of information of a system to its environment. Quantum decoherence

    Quantum decoherence

    Quantum decoherence

    Quantum_decoherence

  • Photodetector
  • Sensors of light or other electromagnetic energy

    high-speed detectors and quantum technologies. Photodetectors can be classified based on their mechanism of operation and device structure. Here are the

    Photodetector

    Photodetector

    Photodetector

  • Noisy intermediate-scale quantum computing
  • Experimental technology level

    (QAOA), which use NISQ devices but offload some calculations to classical processors. These algorithms have been successful in quantum chemistry and have

    Noisy intermediate-scale quantum computing

    Noisy_intermediate-scale_quantum_computing

  • MOSFET
  • Type of field-effect transistor

    obtaining low-threshold devices on both pMOS and nMOS devices sometimes requires the use of different metals for each device type. The silicon-SiO2 interface

    MOSFET

    MOSFET

    MOSFET

  • MIPS architecture
  • Instruction set architecture

    implementations were the MIPS Technologies R10000 (1996) and the Quantum Effect Devices R5000 (1996) and RM7000 (1998). The R10000, fabricated and sold

    MIPS architecture

    MIPS_architecture

  • 64-bit computing
  • Computer architecture bit width

    industrial computers also used 64-bit microprocessors, such as the Quantum Effect Devices R5000. 64-bit computing started to trickle down to the personal

    64-bit computing

    64-bit computing

    64-bit_computing

  • Exponential Technology
  • to Intrinsity, Inc. in 2000 and was purchased by Apple in 2010. Quantum Effect Devices "EVSX Announces Name Change And Technology Focus," Linux PR, May

    Exponential Technology

    Exponential Technology

    Exponential_Technology

  • Quantum nonlocality
  • Deviations from local realism

    measuring devices involved are termed semi-device independent protocols. Currently, there exist semi-device independent protocols for quantum key distribution

    Quantum nonlocality

    Quantum_nonlocality

  • Charge-coupled device
  • Digital imaging circuit

    video cameras as light-sensing devices. They commonly respond to 70 percent of the incident light (meaning a quantum efficiency of about 70 percent)

    Charge-coupled device

    Charge-coupled device

    Charge-coupled_device

  • Quantum machine learning
  • Interdisciplinary research area

    universal quantum computer to be tested, others have been implemented on small-scale or special purpose quantum devices. Early work on quantum associative

    Quantum machine learning

    Quantum machine learning

    Quantum_machine_learning

  • John Clarke (physicist)
  • British physicist (born 1942)

    and Michel Devoret. Their discoveries in macroscopic quantum phenomena using the Josephson effect earned them the Nobel Prize in Physics in 2025. John

    John Clarke (physicist)

    John Clarke (physicist)

    John_Clarke_(physicist)

  • Quantum suicide and immortality
  • Quantum mechanics thought experiment

    Quantum suicide is a thought experiment in quantum mechanics and the philosophy of physics. Purportedly, it can falsify any interpretation of quantum

    Quantum suicide and immortality

    Quantum_suicide_and_immortality

  • SGI Indy
  • 1993 graphics workstation computer

    upgraded with the MIPS R4400 and the low-cost, low-power-consumption Quantum Effect Devices (QED) R4600. The R4600 has higher integer performance, but lesser

    SGI Indy

    SGI Indy

    SGI_Indy

  • Faster-than-light communication
  • Information sent faster than light

    instant "quantum communication" with unlimited range. Humans reverse engineer the device from captured alien technology. In the Mass Effect series of

    Faster-than-light communication

    Faster-than-light_communication

  • Quantum dot cellular automaton
  • Type of cellular automaton

    Brewer “Emerging Research Logic Devices” IEEE Circuits & Devices Magazine May 2005 p. 7 Konrad Walus and G. A. Jullien “Quantum-Dot Cellular Automata Adders”

    Quantum dot cellular automaton

    Quantum_dot_cellular_automaton

  • QFET
  • Type of MOSFET

    A quantum field-effect transistor (QFET) or quantum-well field-effect transistor (QWFET) is a type of MOSFET (metal–oxide–semiconductor field-effect transistor)

    QFET

    QFET

    QFET

  • Quantum eraser experiment
  • Physics experiment

    In quantum mechanics, a quantum eraser experiment is an interferometer experiment that demonstrates several fundamental aspects of quantum mechanics,

    Quantum eraser experiment

    Quantum_eraser_experiment

  • Nanoelectronics
  • Use of nanotechnology in electronic components

    diverse set of devices and materials, with the common characteristic that they are so small that inter-atomic interactions and quantum mechanical properties

    Nanoelectronics

    Nanoelectronics

  • Schrödinger's cat
  • Thought experiment in quantum mechanics

    In quantum mechanics, Schrödinger's cat is a thought experiment concerning quantum superposition. In the thought experiment, a hypothetical cat inside

    Schrödinger's cat

    Schrödinger's cat

    Schrödinger's_cat

  • Fin field-effect transistor
  • Type of non-planar transistor

    These devices have been given the generic name "FinFETs" because the source/drain region forms fins on the silicon surface. The FinFET devices exhibit

    Fin field-effect transistor

    Fin field-effect transistor

    Fin_field-effect_transistor

  • Hall effect sensor
  • Devices that measure magnetic field strength using the Hall effect

    sensor. Hall effect devices (when appropriately packaged) are immune to dust, dirt, mud, and water. These characteristics make Hall effect devices better for

    Hall effect sensor

    Hall effect sensor

    Hall_effect_sensor

  • Photodiode
  • Converts light into current

    mitigates these effects. In some cases, the effect is actually wanted, for example to use LEDs as light-sensitive devices (see LED as light sensor) or even for

    Photodiode

    Photodiode

    Photodiode

  • Quantum Break
  • 2016 video game

    Quantum Break is a 2016 action-adventure third-person shooter video game developed by Remedy Entertainment and published by Microsoft Studios. The game

    Quantum Break

    Quantum_Break

  • Counterfactual quantum computation
  • Method of inferring the results of a computation without running a quantum computer

    interferometer. The quantum computer is set in a superposition of "not running" and "running" states by means such as the quantum Zeno effect. Those state histories

    Counterfactual quantum computation

    Counterfactual_quantum_computation

  • Semiconductor device
  • Electronic component that exploits the electronic properties of semiconductor materials

    Semiconductor devices are manufactured both as single discrete devices and as integrated circuits, which consist of two or more devices—which can number

    Semiconductor device

    Semiconductor device

    Semiconductor_device

  • Superconducting tunnel junction
  • Electronic device

    process of quantum tunneling. The STJ is a type of Josephson junction, though not all the properties of the STJ are described by the Josephson effect. These

    Superconducting tunnel junction

    Superconducting_tunnel_junction

  • Superconducting computing
  • Logic circuitry that requires low temperatures to achieve superconductivity

    1983. By the mid-1970s IBM had constructed a superconducting quantum interference device using these junctions, mainly working with lead-based junctions

    Superconducting computing

    Superconducting_computing

  • Light-emitting diode physics
  • Practical physics application

    began with infrared and red devices made with gallium arsenide. Advances in materials science have enabled making devices with ever-shorter wavelengths

    Light-emitting diode physics

    Light-emitting_diode_physics

  • Anti-gravity
  • Physical and science fiction concept

    devices. Brown tested his asymmetrical capacitor devices in a vacuum, supposedly showing it was not a more down-to-earth electrohydrodynamic effect generated

    Anti-gravity

    Anti-gravity

    Anti-gravity

  • Quantum cellular automaton
  • Abstract model of quantum computation

    operation of multiple computing devices, or cells. The cells are usually taken to be identical, finite-dimensional quantum systems (e.g. each cell is a qubit)

    Quantum cellular automaton

    Quantum_cellular_automaton

  • Pauli effect
  • Superstition that equipment only fails in the presence of certain people

    The Pauli effect or Pauli's device corollary is the supposed tendency of technical equipment to encounter critical failure in the presence of certain people

    Pauli effect

    Pauli effect

    Pauli_effect

  • Introduction to quantum mechanics
  • Non-mathematical introduction

    Quantum mechanics is the study of matter and matter's interactions with energy on the scale of atomic and subatomic particles. By contrast, classical

    Introduction to quantum mechanics

    Introduction_to_quantum_mechanics

  • Light-emitting diode
  • Semiconductor light source

    maturity of InGaN/GaN blue/green devices. If unalloyed GaN is used in this case to form the active quantum well layers, the device emits near-ultraviolet light

    Light-emitting diode

    Light-emitting diode

    Light-emitting_diode

  • Surface acoustic wave
  • Sound wave which travels along the surface of an elastic material

    these SAW device could provide potential field in radar and communication systems. This kind of wave is commonly used in devices called SAW devices in electronic

    Surface acoustic wave

    Surface acoustic wave

    Surface_acoustic_wave

  • Hong–Ou–Mandel effect
  • Interference effect of two photons

    The Hong–Ou–Mandel effect is a two-photon interference effect in quantum optics that was demonstrated in 1987 by Chung Ki Hong (Korean: 홍정기), Zheyu Jeff

    Hong–Ou–Mandel effect

    Hong–Ou–Mandel_effect

  • History of quantum mechanics
  • phenomena—blackbody radiation, the photoelectric effect, solar emission spectra—an era called the Old or Older quantum theories. Building on the technology developed

    History of quantum mechanics

    History_of_quantum_mechanics

  • Quantum engineering
  • Technological development using the laws of quantum mechanics

    Quantum engineering is the development of technology that capitalizes on the laws of quantum mechanics. This type of engineering uses quantum mechanics

    Quantum engineering

    Quantum engineering

    Quantum_engineering

  • Potential well
  • Concept in quantum mechanics

    including quantum dots were derived from size manipulation and investigation for their theoretical corroboration on quantum confinement effect. The major

    Potential well

    Potential well

    Potential_well

  • Spin transistor
  • Potential transistor-like device

    today's devices, which rely on noisy amplifiers to detect the minute charges used on today's data storage devices. The potential result is devices that can

    Spin transistor

    Spin_transistor

  • Quantum entanglement
  • Physics phenomenon

    Quantum entanglement is the phenomenon in which the quantum state of each particle in a group cannot be described independently of the state of the others

    Quantum entanglement

    Quantum entanglement

    Quantum_entanglement

  • Electro-absorption modulator
  • Device used for modulating a laser beam

    a high extinction ratio, one usually exploits the Quantum-confined Stark effect (QCSE) in a quantum well structure. Compared with an Electro-optic modulator

    Electro-absorption modulator

    Electro-absorption_modulator

  • Graphene
  • Hexagonal lattice made of carbon atoms

    Effect Devices". Nanoscale. 7 (8): 3558–3564. Bibcode:2015Nanos...7.3558S. doi:10.1039/c4nr07457b. PMID 25631337. S2CID 24846431. "Graphene Devices Stand

    Graphene

    Graphene

    Graphene

  • Kondo effect
  • Physical phenomenon due to impurities

    ytterbium, and actinide elements such as uranium. The Kondo effect has also been observed in quantum dot systems. The dependence of the resistivity ρ {\displaystyle

    Kondo effect

    Kondo effect

    Kondo_effect

  • Photon
  • Elementary particle or quantum of light

    φῶς, φωτός (phôs, phōtós) 'light') is an elementary particle that is a quantum of the electromagnetic field, including electromagnetic radiation such

    Photon

    Photon

  • Quantum point contact
  • Constriction between electrically conducting regions

    zero-field conductance quantisation and the smooth transition to the quantum Hall effect on applying a magnetic field are essentially consequences of the

    Quantum point contact

    Quantum point contact

    Quantum_point_contact

  • Spin qubit quantum computer
  • Proposed semiconductor implementation of quantum computers

    qubit quantum computer is a quantum computer based on controlling the spin of charge carriers (electrons and electron holes) in semiconductor devices. The

    Spin qubit quantum computer

    Spin_qubit_quantum_computer

  • Quantum tunnelling composite
  • Type of composite materials

    tunnel through the insulator. The effect is far more pronounced than would be expected from classical (non-quantum) effects alone, as classical electrical

    Quantum tunnelling composite

    Quantum_tunnelling_composite

  • Electronic component
  • Discrete device in an electronic system

    electrical signal are called passive devices. Resistors, capacitors, inductors, and transformers are all considered passive devices. Pass current in proportion

    Electronic component

    Electronic component

    Electronic_component

  • Quantum gyroscope
  • Device used for orientation based on quantum mechanics

    A quantum gyroscope is a very sensitive device to measure angular rotation based on quantum mechanical principles. The first of these was built by Richard

    Quantum gyroscope

    Quantum_gyroscope

  • Bipolar junction transistor
  • Transistor that uses both electrons and holes as charge carriers

    enough that the device is not damaged, this effect can be used to create very sharp falling edges. Special avalanche transistor devices are made for this

    Bipolar junction transistor

    Bipolar junction transistor

    Bipolar_junction_transistor

  • Linear optics
  • Sub-field in optics consisting of lenses and mirrors

    optical quantum computing: on the one hand, it is useful for deriving a universal set of gates, and on the other hand, with (only) linear-optical devices and

    Linear optics

    Linear_optics

  • Resonant-cavity-enhanced photo detector
  • expected to have higher quantum efficiency η than compared to conventional photodiodes. The formulation of η for RCE devices gives insight to the design

    Resonant-cavity-enhanced photo detector

    Resonant-cavity-enhanced_photo_detector

  • Josephson diode
  • Superconducting quantum material diode

    developments and optimizations. The Josephson diode effect can occur, e.g., in superconducting devices where time reversal symmetry and inversion symmetry

    Josephson diode

    Josephson_diode

  • Copenhagen interpretation
  • Interpretation of quantum mechanics

    Copenhagen interpretation is a collection of views about the meaning of quantum mechanics, stemming from the work of Niels Bohr, Werner Heisenberg, Max

    Copenhagen interpretation

    Copenhagen_interpretation

  • Quantum network
  • Networks connecting quantum processors

    Quantum networks form an important element of quantum computing and quantum communication systems. Quantum networks facilitate the transmission of information

    Quantum network

    Quantum_network

  • Superradiance
  • Various physical phenomena

    variety of physical and chemical systems, such as quantum dot arrays and J-aggregates. This effect has been used to produce a superradiant laser. Superabsorption

    Superradiance

    Superradiance

  • Proximity effect (superconductivity)
  • Phenomena that occur when a superconductor is in contact with a non-superconductor

    Scattering process at the normal-metal-superconductor interface Josephson effect – Quantum physical phenomenon Holm, R.; Meissner, W. (1932). "Messungen mit Hilfe

    Proximity effect (superconductivity)

    Proximity effect (superconductivity)

    Proximity_effect_(superconductivity)

  • Electronic properties of graphene
  • Based Field Effect Devices". Nanoscale. 7 (8): 3558–3564. Bibcode:2015Nanos...7.3558S. doi:10.1039/c4nr07457b. PMID 25631337. "Graphene Devices Stand the

    Electronic properties of graphene

    Electronic properties of graphene

    Electronic_properties_of_graphene

  • Gunn diode
  • Form of diode

    Journal of Selected Topics in Quantum Electronics, 7(4), 630–640, doi:10.1109/2944.974235. John Voelcker (1989). "The Gunn effect: puzzling over noise". IEEE

    Gunn diode

    Gunn diode

    Gunn_diode

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Online names & meanings

  • Veshalini
  • Girl/Female

    Hindu, Indian

    Veshalini

    Rinds

  • Mahananda
  • Boy/Male

    Hindu, Indian

    Mahananda

    Lord Vishnu

  • Deborah
  • Girl/Female

    Hebrew American Biblical

    Deborah

    Bee. Deborah was the Biblical prophetess who summoned Barak to battle against an army of...

  • Palam
  • Boy/Male

    Hindu, Indian

    Palam

    Fruit

  • Clutter
  • Surname or Lastname

    English

    Clutter

    English : possibly from Middle English cloutere, clutere, an occupational name for a cobbler or patcher, from an agent derivative of cloute, clut(e) ‘patch’.Possibly an altered form of German Klutterer, an occupational name for a traveling entertainer, Middle High German kluterære, or a shortened form of Klüttermann ‘clodhopper’, a nickname for a peasant.

  • Lyle
  • Boy/Male

    English American French

    Lyle

    The island or from the island. From Old French 'L'isle'.

  • Thufailah
  • Girl/Female

    Muslim/Islamic

    Thufailah

    Elegant with good respect for her elders

  • Kuru | குரூ
  • Boy/Male

    Tamil

    Kuru | குரூ

    (Ancient king and founder of the Kuru dynasty. Due to his performance of sacrifice and asceticism at the site)

  • Sirmons
  • Surname or Lastname

    English

    Sirmons

    English : variant of Sermon.

  • Jaafar
  • Boy/Male

    Muslim

    Jaafar

    Rivulet.

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QUANTUM EFFECT-DEVICES

  • Infect
  • v. t.

    To affect with infectious disease; to communicate infection to; as, infected with the plague.

  • Quantic
  • n.

    A homogeneous algebraic function of two or more variables, in general containing only positive integral powers of the variables, and called quadric, cubic, quartic, etc., according as it is of the second, third, fourth, fifth, or a higher degree. These are further called binary, ternary, quaternary, etc., according as they contain two, three, four, or more variables; thus, the quantic / is a binary cubic.

  • Effect
  • n.

    Goods; movables; personal estate; -- sometimes used to embrace real as well as personal property; as, the people escaped from the town with their effects.

  • Affect
  • v. t.

    To make a show of; to put on a pretense of; to feign; to assume; as, to affect ignorance.

  • Quanta
  • pl.

    of Quantum

  • Quantum
  • n.

    A definite portion of a manifoldness, limited by a mark or by a boundary.

  • Effect
  • n.

    Execution; performance; realization; operation; as, the law goes into effect in May.

  • Effector
  • n.

    An effecter.

  • Affect
  • v. t.

    To act upon; to produce an effect or change upon.

  • Effecter
  • n.

    One who effects.

  • Effected
  • imp. & p. p.

    of Effect

  • Quintic
  • n.

    A quantic of the fifth degree. See Quantic.

  • Infect
  • v. t.

    Infected. Cf. Enfect.

  • Quadric
  • n.

    A quantic of the second degree. See Quantic.

  • Touch
  • v. t.

    To infect; to affect slightly.

  • Defect
  • n.

    Failing; fault; imperfection, whether physical or moral; blemish; as, a defect in the ear or eye; a defect in timber or iron; a defect of memory or judgment.

  • Quartic
  • n.

    A quantic of the fourth degree. See Quantic.

  • Effect
  • n.

    In general: That which is produced by an agent or cause; the event which follows immediately from an antecedent, called the cause; result; consequence; outcome; fruit; as, the effect of luxury.

  • Quantum
  • n.

    Quantity; amount.

  • Effect
  • n.

    Power to produce results; efficiency; force; importance; account; as, to speak with effect.