
arXiv:1512.05361v1 [cond-mat.stat-mech] 16 Dec
... hand, we show that random disorder, in the form of intersite disorder43,44 (e.g. “stuffing,”), could potentially explain the rise of C(T ) without dramatically affecting the neutron scattering intensity pattern over the same temperature range. The rest of the paper is organized as follows. In Sectio ...
... hand, we show that random disorder, in the form of intersite disorder43,44 (e.g. “stuffing,”), could potentially explain the rise of C(T ) without dramatically affecting the neutron scattering intensity pattern over the same temperature range. The rest of the paper is organized as follows. In Sectio ...
107, 195303 (2011)
... attention recently [2] for their potential use as an ideal platform for emulating many important physical phenomena. Interesting physics, including the crossover from Bardeen-Cooper-Schrieffer (BCS) superfluid to Bose-Einstein condensate (BEC) of molecules [3], universal properties in the unitary li ...
... attention recently [2] for their potential use as an ideal platform for emulating many important physical phenomena. Interesting physics, including the crossover from Bardeen-Cooper-Schrieffer (BCS) superfluid to Bose-Einstein condensate (BEC) of molecules [3], universal properties in the unitary li ...
PHYS 2325 Ch10 Problems
... through 50.0 revolutions before coming to rest. Find the constant angular acceleration of the centrifuge. 䊱 An electric motor rotating a grinding wheel at 100 rev/min is switched off. The wheel then moves with constant negative angular acceleration of magnitude 2.00 rad/s2. (a) During what time inte ...
... through 50.0 revolutions before coming to rest. Find the constant angular acceleration of the centrifuge. 䊱 An electric motor rotating a grinding wheel at 100 rev/min is switched off. The wheel then moves with constant negative angular acceleration of magnitude 2.00 rad/s2. (a) During what time inte ...
Microscopic description of two dimensional dipolar quantum gases Universitat Polit` ecnica de Catalunya
... gas. The dipolar interaction between particles having an electric or magnetic dipole moment has two properties that are radically different from short range Van der Waals forces more commonly found in other condensed matter systems: • It is anisotropic, which means that the interaction strength, and ...
... gas. The dipolar interaction between particles having an electric or magnetic dipole moment has two properties that are radically different from short range Van der Waals forces more commonly found in other condensed matter systems: • It is anisotropic, which means that the interaction strength, and ...
Why Physicists are still Important.
... and the bath, initialised in some entangled state, maintains appreciable entanglement over the evolution, then it follows there is a restriction on the entanglement between the `central spin' S and the bath. For pure states this equivalent to a restriction on the amount that S may decohere. For mixe ...
... and the bath, initialised in some entangled state, maintains appreciable entanglement over the evolution, then it follows there is a restriction on the entanglement between the `central spin' S and the bath. For pure states this equivalent to a restriction on the amount that S may decohere. For mixe ...
What is the Entropy in Entropic Gravity?
... the formulation of the laws of black hole mechanics [1] and the derivation of the BekensteinHawking entropy [2, 3]. More recently, ideas such as the holographic principle [4, 5], black hole complementarity [6], the gauge/gravity correspondence [7–9], and the firewall puzzle [10, 11] have provided fu ...
... the formulation of the laws of black hole mechanics [1] and the derivation of the BekensteinHawking entropy [2, 3]. More recently, ideas such as the holographic principle [4, 5], black hole complementarity [6], the gauge/gravity correspondence [7–9], and the firewall puzzle [10, 11] have provided fu ...
Multi-species systems in optical lattices: effects of disorder
... basic ingredients consisting of hopping and repulsive interactions [5]. When the constituent particles are bosons, this is well described by the so called Bose-Hubbard Hamiltonian, X † X Hs = − t(âi aj + â†j âi ) + U n̂i (n̂i − 1), ...
... basic ingredients consisting of hopping and repulsive interactions [5]. When the constituent particles are bosons, this is well described by the so called Bose-Hubbard Hamiltonian, X † X Hs = − t(âi aj + â†j âi ) + U n̂i (n̂i − 1), ...
Momentum and Its Conservation
... Impulse and Momentum Angular Momentum Just as the linear momentum of an object changes when an impulse acts on it, the angular momentum of an object changes when an angular impulse acts on it. Thus, the angular impulse on the object is equal to the change in the object’s angular momentum, which is c ...
... Impulse and Momentum Angular Momentum Just as the linear momentum of an object changes when an impulse acts on it, the angular momentum of an object changes when an angular impulse acts on it. Thus, the angular impulse on the object is equal to the change in the object’s angular momentum, which is c ...
Multi-party Quantum Computation Adam Smith
... have access. We formalize this notion in Section 1.2. Verifiable Quantum Secret Sharing In order to construct mpqc protocols, we consider a subtask which we call verifiable quantum secret sharing. In classical cryptography, a verifiable secret sharing scheme [CGMA85] is a two-phase protocol with one ...
... have access. We formalize this notion in Section 1.2. Verifiable Quantum Secret Sharing In order to construct mpqc protocols, we consider a subtask which we call verifiable quantum secret sharing. In classical cryptography, a verifiable secret sharing scheme [CGMA85] is a two-phase protocol with one ...
Ph.D. Thesis Giuseppe Prettico
... help to distribute pure state entanglement and multipartite secret correlations, respectively, when a new party is added to the considered scenario. We move later to deepen the connection between privacy and nonlocality. With this aim, we consider the private states, that is, those quantum states fr ...
... help to distribute pure state entanglement and multipartite secret correlations, respectively, when a new party is added to the considered scenario. We move later to deepen the connection between privacy and nonlocality. With this aim, we consider the private states, that is, those quantum states fr ...