Phys. Rev. Lett. 108, 100501 - APS Link Manager
... the controlled phase gate, assuming they occur independently [29]. While, in the thermodynamic limit, the gap vanishes at the phase transition, here, we consider finite system sizes where there always exists a nonzero gap. For gapless phases such as the dipolar crystal, however, it is important to n ...
... the controlled phase gate, assuming they occur independently [29]. While, in the thermodynamic limit, the gap vanishes at the phase transition, here, we consider finite system sizes where there always exists a nonzero gap. For gapless phases such as the dipolar crystal, however, it is important to n ...
URL - StealthSkater
... The process in which proteins covered by ordered water analogous to ice temporarily melt and form aggregates is a basic process induced by the feed of energy to the cellular system and could be compared to cellular summer. This process could mean quite generally molecular re-programming induced by ...
... The process in which proteins covered by ordered water analogous to ice temporarily melt and form aggregates is a basic process induced by the feed of energy to the cellular system and could be compared to cellular summer. This process could mean quite generally molecular re-programming induced by ...
What is quantum unique ergodicity?
... The first major theorem proved in this subject was the quantum ergodicity theorem proved by Schnirelman, Zelditch and Colin de Verdière for manifolds without boundary (Example 1.3), and for manifolds with boundary by Gérard–Leichtnam and Zelditch–Zworski [11], [15], [4], [6], [16]. Theorem 4.1 (Qu ...
... The first major theorem proved in this subject was the quantum ergodicity theorem proved by Schnirelman, Zelditch and Colin de Verdière for manifolds without boundary (Example 1.3), and for manifolds with boundary by Gérard–Leichtnam and Zelditch–Zworski [11], [15], [4], [6], [16]. Theorem 4.1 (Qu ...
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... wavefunction (the "state" |ψ〉 ) , and there is no strong consensus on the issue, so we asked the faculty how they present the physical interpretation of the wavefunction to their students in JQM. In particular, we asked them to choose one of the following two interpretations or to describe an altern ...
... wavefunction (the "state" |ψ〉 ) , and there is no strong consensus on the issue, so we asked the faculty how they present the physical interpretation of the wavefunction to their students in JQM. In particular, we asked them to choose one of the following two interpretations or to describe an altern ...
Deconfined Quantum Criticality
... the two-dimensional electron gas model has been of more importance for both theoretical and experimental grounds. When the cuprate materials like La2 CuO4 are doped with mobile electrons or holes (Sr), for instance, the superconductivity is induced in the CuO2 plane, which may be described with the ...
... the two-dimensional electron gas model has been of more importance for both theoretical and experimental grounds. When the cuprate materials like La2 CuO4 are doped with mobile electrons or holes (Sr), for instance, the superconductivity is induced in the CuO2 plane, which may be described with the ...
Quantum Random Walk via Classical Random Walk With Internal
... [10] also provided a detail analysis of quantum walk on a line via the Fourier analysis on the transformation of the wave equation at each time step. Their results showed that after t time steps, the probability distribution of the particle’s position on the line, is almost uniformly over the interv ...
... [10] also provided a detail analysis of quantum walk on a line via the Fourier analysis on the transformation of the wave equation at each time step. Their results showed that after t time steps, the probability distribution of the particle’s position on the line, is almost uniformly over the interv ...
E + - IPAM
... Suppose we have a quantum verifier circuit that is composed of T gates operating on n qubits. (Both witness and ancillary qubits). Will have a system composed of n computation qubits and T+1 clock quibits. Let denote a possible quantum witness. Let t denote the state of the n quibits after the f ...
... Suppose we have a quantum verifier circuit that is composed of T gates operating on n qubits. (Both witness and ancillary qubits). Will have a system composed of n computation qubits and T+1 clock quibits. Let denote a possible quantum witness. Let t denote the state of the n quibits after the f ...
Kondo, Fano and Dicke effects in side quantum dots
... The transmission spectrum shows a structure with two antiresonances localized at the bonding and antibonding renormalized energies of the quantum-dot molecule, and one resonance at the renormalized site energy of the outside quantum-dot. The LDOS at each dot shows that when the Kondo correlations ar ...
... The transmission spectrum shows a structure with two antiresonances localized at the bonding and antibonding renormalized energies of the quantum-dot molecule, and one resonance at the renormalized site energy of the outside quantum-dot. The LDOS at each dot shows that when the Kondo correlations ar ...
Experimental Demonstration of Tripartite Entanglement - ENS-phys
... Quantum entanglement shared by more than two parties is the essential base for developing quantum communication networks and quantum computation. The three-particle entangled states for discrete variables, also called Greenberger-Horne-Zeilinger (GHZ) states, have been proposed [1] and then experime ...
... Quantum entanglement shared by more than two parties is the essential base for developing quantum communication networks and quantum computation. The three-particle entangled states for discrete variables, also called Greenberger-Horne-Zeilinger (GHZ) states, have been proposed [1] and then experime ...