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... of its constituent particles. Intuitively, this means that individual particles are independent of each other. Multiple particles put together do not inherently limit the phase space. Quantum mechanics, on the other hand, treats position and momentum as observables— quantities that arise out of phys ...
... of its constituent particles. Intuitively, this means that individual particles are independent of each other. Multiple particles put together do not inherently limit the phase space. Quantum mechanics, on the other hand, treats position and momentum as observables— quantities that arise out of phys ...
Quantum Hall ferromagnet at high filling factors: A magnetic
... minima suddenly disappearing from the longitudinal resistivity 关xx共B兲兴 at low fields. A theoretical explanation for the collapse of spin splitting has been proposed by Fogler and Shklovskii,13 who predicted a second order phase transition in which exchange interactions are destroyed by disorder in ...
... minima suddenly disappearing from the longitudinal resistivity 关xx共B兲兴 at low fields. A theoretical explanation for the collapse of spin splitting has been proposed by Fogler and Shklovskii,13 who predicted a second order phase transition in which exchange interactions are destroyed by disorder in ...
Lecture notes, Chapter 4. Energy Levels
... We now consider a potential which is very similar to the one studied for scattering (compare Fig. 15 to Fig. 22), but that represents a completely different situation. The physical picture modeled by this potential is that of a bound particle. Specifically if we consider the case where the total energ ...
... We now consider a potential which is very similar to the one studied for scattering (compare Fig. 15 to Fig. 22), but that represents a completely different situation. The physical picture modeled by this potential is that of a bound particle. Specifically if we consider the case where the total energ ...
Podlesnyak, Andrey: Spin crossover phenomena in transition metal
... We are waiting for strong magnetic fields to become available to INS: a “must” tool to analyze spin-state transitions; to manipulate with electronic states. ...
... We are waiting for strong magnetic fields to become available to INS: a “must” tool to analyze spin-state transitions; to manipulate with electronic states. ...
Coupled quantum dots as quantum gates
... terdot distance, i.e., for 2a@2a B , where a is half the distance between the centers of the dots, and a B5 A\/m v 0 is the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well ...
... terdot distance, i.e., for 2a@2a B , where a is half the distance between the centers of the dots, and a B5 A\/m v 0 is the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well ...
Hilbert Space Quantum Mechanics
... an ordinary bit (binary digit) that takes the value 0 or 1. In quantum information such a two-dimensional Hilbert space, or the system it represents, is referred to as a qubit (pronounced “cubit”). However, there are disanalogies as well. Linear combinations like 0.3|0i + 0.7i|1i make perfectly good ...
... an ordinary bit (binary digit) that takes the value 0 or 1. In quantum information such a two-dimensional Hilbert space, or the system it represents, is referred to as a qubit (pronounced “cubit”). However, there are disanalogies as well. Linear combinations like 0.3|0i + 0.7i|1i make perfectly good ...
Universal Quantum Computation with the Exchange Interaction
... a factor of ten in additional two-qubit operations. Even at this cost, the ability to eliminate the complexity of one-qubit operations should accelerate progress towards these solid-state implementations of quantum computation. ...
... a factor of ten in additional two-qubit operations. Even at this cost, the ability to eliminate the complexity of one-qubit operations should accelerate progress towards these solid-state implementations of quantum computation. ...
A mechanistic classical laboratory situation violating the Bell
... details to give a description of the macroscopical entity that we will present in this paper. This does of course not mean that we want to pretend that this is the way things happen with the spin entity. Not at all. Our aim is to limit of strictly the classical ways of violations of the inequalities ...
... details to give a description of the macroscopical entity that we will present in this paper. This does of course not mean that we want to pretend that this is the way things happen with the spin entity. Not at all. Our aim is to limit of strictly the classical ways of violations of the inequalities ...
5. Nuclear Structure
... potential is not external to the particles, but created by themselves, and the fact that the size of the nucleons is much larger than the electrons, so that it makes much less sense to speak of orbitals. Also, instead of having just one type of particle (the electron) obeying Pauli’s exclusion princ ...
... potential is not external to the particles, but created by themselves, and the fact that the size of the nucleons is much larger than the electrons, so that it makes much less sense to speak of orbitals. Also, instead of having just one type of particle (the electron) obeying Pauli’s exclusion princ ...