azimuthal quantum number adad-e kuântomi-ye sugâni Fr.: nombre quantique azimutal In quantum mechanics, a quantum number that distinguishes the different shapes of the orbitals. Azimuthal, adj. from → azimuth; → quantum number. |
continuous-time quantum walk puyeš-e kuântomi bâ zamân-e peyvasté Fr.: marche quantique à temps continu A → quantum walk taking place entirely in the position space. Continuous-time quantum walk was introduced by E. Farhi & S. Gutmann (1998, Phys. Rev. A 58, 915). → continuous; → time; → quantum; → walk. |
detective quantum efficiency (DQE) kârâyi-ye kuântomi-ye âškâreš Fr.: rendement quantique de détection The square of the ratio of the output → signal-to-noise (S/N) to the input S/N. Detective, adj. of → detect; → quantum; → efficiency. |
discrete-time quantum walk puyeš-e kuântomi bâ zamân-e gosasté Fr.: marche quantique à temps discret A → quantum walk involving a probabilistic → operator that changes the direction while leaving the position fixed, and a shift operator that changes the position. Discrete-time quantum walk was introduced by J. Watrous (2001, Journal of Computer and System Sciences 62, 376) |
magnetic quantum number adad-e kuântomi-ye meqnâtisi (#) Fr.: nombre quantique magnétique In atomic physics, a quantum number that denotes the energy levels available within a subshell. Designated by the letter m, it is one of a set of quantum numbers which describe the unique quantum state of an electron. |
principal quantum number adad-e kuântomi-ye farin Fr.: nombre quantique principal In atomic physics, the first of a set of quantum numbers which describe an atomic orbital. Symbolized as n, it characterizes the size and energy of an orbital. |
quantum kuântom (#) Fr.: quantum The smallest amount of energy that can be absorbed or radiated by matter at a specified frequency (plural quanta). It is a → discrete quantity of energy hν associated with a wave of frequency ν, where h represents the → Planck's constant. Quantum "a particular amount," from L. quantum "how much," neuter singular of quantus "how great." Introduced in physics by Max Planck (1858-1947) in 1900. |
quantum censorship sânsur-e kuântomi Fr.: censure quantique A concept whereby properties of objects vary according to the energy with which they are probed. An atomic system in its → ground state tends to remain as it is if little energy is fed in, betraying no evidence of its internal structure. Only when it is excited into a higher state do complexities emerge. This is the essence of quantum censorship. Thus, below an energy threshold, atoms appear to be impenetrable. Above it, their components can be exposed (F. Wilczek, 2013, Nature 498, 31). → quantum; censorship, from censor, from M.Fr. censor and directly from L. censor "a Romain magistrate who kept the register or census of the citizens, and supervised morals," from censere "to appraise, value, judge," from PIE root *kens- "to speak solemnly, announce;" cf. Av. səngh- (sanh-) "to declare, explain;" Pers. soxan "word, speech;" Skt. śams- "to praise, recite." |
quantum chromodynamics rangtavânik-e kuântomi Fr.: chromodynamique quantique The → quantum field theory that deals with the → strong interaction and the structure of elementary particles in the framework of → quantum theory. The cohesive attraction between the → quarks, that constitute → hadrons, involves the participation of three particles. Each of these particles is assigned a different → color "charge." The existence of these "charges" requires a multiplicity of different messenger particles to communicate the interaction and glue the quarks together. These messengers are called → gluons and there are eight different types. → quantum; → chromodynamics |
quantum computer râyângar-e kuântomi Fr.: ordinateur quantique A type of computer, as yet hypothetical, that uses quantum mechanical laws, such as the → superposition principle and the → quantum entanglement, to perform calculations based on the behavior of particles at the → subatomic level. A quantum computer would gain enormous processing power through the ability to be in multiple states, and to perform tasks using all possible permutations simultaneously. |
quantum defect kâst-e kuântomi Fr.: défaut quantique Of an atomic energy level, the difference between the principal quantum number and the effective quantum number. |
quantum efficiency kârâi-ye kuântomi Fr.: efficacité quantique In a detector, the ratio of the number of photoelectrons released to the number of incident photons at a specific wavelength. → quantum; → efficiency. |
quantum electrodynamics (QED) barqâtavânik-e kuântomi Fr.: électrodynamique quantique The → quantum field theory that describes the properties of → electromagnetic radiation and its interaction with electrically charged matter in the framework of → quantum theory. → quantum; → electrodynamics. |
quantum entanglement ham-gureš-e kuântomi, ham-pici-ye ~ Fr.: emmêlement quantique, intrication ~ A quantum → phenomenon that occurs when two or more particles (→ photons or → atomic particles) that have a common origin remain linked together when they travel apart. A measurement of one of the particles determines not only its → quantum state but the quantum state of the other particle as well. A change in one is instantly reflected in the other. See also → EPR paradox. → quantum; → entanglement. |
quantum field theory negare-ye kuântomi-ye meydân Fr.: théorie quantique des champs The quantum mechanical theory based on the assumption that the interactions between particles and fields are mediated by messenger particles. |
quantum fluctuation oftâxiz-e kuântomi Fr.: fluctuation quantique The temporary variation in a → quantum field due to the → uncertainty principle. → quantum; → fluctuation. |
quantum gravity gerâni-ye kuântomi Fr.: gravité quantique A theory of gravity, yet to be developed, that would properly include quantum mechanics. Because of the tensor nature of general relativity, it is not renormalizable as a field theory in perturbation from flat space. So far various attempts to quantize general relativity have been unsuccessful. |
quantum information azdâyeš-e kuântomi Fr.: information quantique The science concerned with the transmission, storage, and processing of information using quantum mechanical systems. It exploits the notion of → quantum entanglement between systems and joins several fields of knowledge, mainly quantum physics, information, computation, and probability. → quantum; → information. |
quantum jump jaheš-e kuântomi Fr.: saut quantique The transition of a quantum system from one stationary state to another, accompanied by absorption or emission of energy. |
quantum mechanical system râžmân-e kuântom mekâniki Fr.: système mécanique quantique A → physical system that is specified by a → wave function. → quantum; → mechanical; → system. |