A Quantum Mechanical Maxwellian Demon 2017
... A Quantum Mechanical Maxwellian Demon quantum state (t1) which is thermodynamic relative to H, regardless of whether or not (t0) itself was thermodynamic relative to H. (b) H is the actual Hamiltonian that governs thermodynamic evolutions. The term “exists” in part (a) above means that such a Ham ...
... A Quantum Mechanical Maxwellian Demon quantum state (t1) which is thermodynamic relative to H, regardless of whether or not (t0) itself was thermodynamic relative to H. (b) H is the actual Hamiltonian that governs thermodynamic evolutions. The term “exists” in part (a) above means that such a Ham ...
Identical Quantum Particles and Weak Discernibility - Philsci
... of the objects: the description of the situation furnished by classical theories will not change as far as the actuality of the particles is concerned, when we approach a Blackean spheres-type configuration. The discernibility in asymmetrical situations thus provides us with a test for the actuality ...
... of the objects: the description of the situation furnished by classical theories will not change as far as the actuality of the particles is concerned, when we approach a Blackean spheres-type configuration. The discernibility in asymmetrical situations thus provides us with a test for the actuality ...
quantum states satisfying classical probability constraints
... item 1) that there exist (2 ) separable quantum states that satisfy the perfect correlation form of the original Bell inequality for any bounded quantum observables (3 ). At present, Bell-type inequalities are widely used in quantum information processing. However, from the pioneering paper of R. We ...
... item 1) that there exist (2 ) separable quantum states that satisfy the perfect correlation form of the original Bell inequality for any bounded quantum observables (3 ). At present, Bell-type inequalities are widely used in quantum information processing. However, from the pioneering paper of R. We ...
Quantum Computing Lecture 1 Bits and Qubits What is Quantum
... Postulate 1: A closed system is described by a unit vector in a complex inner product space. Postulate 2: The evolution of a closed system in a fixed time interval is described by a unitary transform. Postulate 3: If we measure the state |ψi of a system in an orthonormal basis |0i · · · |n − 1i, we ...
... Postulate 1: A closed system is described by a unit vector in a complex inner product space. Postulate 2: The evolution of a closed system in a fixed time interval is described by a unitary transform. Postulate 3: If we measure the state |ψi of a system in an orthonormal basis |0i · · · |n − 1i, we ...
Quantum_Computing
... traditional silicon-chip-based computing. Not only do some alternatives offer the promise of continued speed increases after the physical limits of silicon and light-based processes have been reached, but several offer entirely new modes of computation. For the first time, however, computational mod ...
... traditional silicon-chip-based computing. Not only do some alternatives offer the promise of continued speed increases after the physical limits of silicon and light-based processes have been reached, but several offer entirely new modes of computation. For the first time, however, computational mod ...
Quantum Potential - Fondation Louis de Broglie
... If we look at the ideas of David Bohm [1], [4] we find that, his main purpose to develop the so-called Bohmian interpretation was to prove that the von Newmann’s argument about the impossibility of describing the current quantum mechanics on the basis of ’Hidden variables’ is wrong. He realized that ...
... If we look at the ideas of David Bohm [1], [4] we find that, his main purpose to develop the so-called Bohmian interpretation was to prove that the von Newmann’s argument about the impossibility of describing the current quantum mechanics on the basis of ’Hidden variables’ is wrong. He realized that ...
Time-Dependent Perturbation Theory - MSU Physics
... of a quantum state-vector is a major advancement in quantum theory, precisely because it decouples the ‘state’ of the system from the values of observables, such that once the ‘state’ is known, the value of any observable, including its quantum uncertainties and correlations, can be computed directl ...
... of a quantum state-vector is a major advancement in quantum theory, precisely because it decouples the ‘state’ of the system from the values of observables, such that once the ‘state’ is known, the value of any observable, including its quantum uncertainties and correlations, can be computed directl ...
Quantum factorization of 56153 with only 4 qubits
... et al. [1] in 2012 factored an entire class of numbers, and not just the one number that they reported (which was 143). The largest such number that we found without using any prior knowledge of the solution to the factorization problem was 56153. Since the experiment in [1] only involved 4 qubits, ...
... et al. [1] in 2012 factored an entire class of numbers, and not just the one number that they reported (which was 143). The largest such number that we found without using any prior knowledge of the solution to the factorization problem was 56153. Since the experiment in [1] only involved 4 qubits, ...
