Field Theory on Curved Noncommutative Spacetimes
... to address physical applications like QFT in a NC early universe or on a NC black hole background, a formulation which can be extended to curved spaces has to be developed. For globally hyperbolic spacetimes deformed by a large class of Drinfel’d twists (in particular including the RJS twists (2.5)) ...
... to address physical applications like QFT in a NC early universe or on a NC black hole background, a formulation which can be extended to curved spaces has to be developed. For globally hyperbolic spacetimes deformed by a large class of Drinfel’d twists (in particular including the RJS twists (2.5)) ...
One-way quantum computing with arbitrarily large time
... scalability breakthrough, optical implementations of quantum information offer other advantages such as room-temperature operation, naturally low decoherence, and significant potential for device integration [19,20]. In this paper, we show that one can create computationally universal CV cluster sta ...
... scalability breakthrough, optical implementations of quantum information offer other advantages such as room-temperature operation, naturally low decoherence, and significant potential for device integration [19,20]. In this paper, we show that one can create computationally universal CV cluster sta ...
Pauline Oliveros and Quantum Sound
... entities, and their actions would be measured by classical physics according to their composition of discrete elements. For Oliveros, though, listening, composing, and performing are not separate aggregates of atomistic particles; instead, these acts and their attending actors can be understood on t ...
... entities, and their actions would be measured by classical physics according to their composition of discrete elements. For Oliveros, though, listening, composing, and performing are not separate aggregates of atomistic particles; instead, these acts and their attending actors can be understood on t ...
Assessing the Nonequilibrium Thermodynamics in a
... semiquantitative criterion that any quench in a general quantum many-body system should satisfy in order to be rightly considered as sudden. In such a transformation, the Hamiltonian changes so quickly that the state of the system freezes. The time taken to change the Hamiltonian should thus be much ...
... semiquantitative criterion that any quench in a general quantum many-body system should satisfy in order to be rightly considered as sudden. In such a transformation, the Hamiltonian changes so quickly that the state of the system freezes. The time taken to change the Hamiltonian should thus be much ...
Recent progresses on diagrammatic determinant QMC
... Here, we show that the universa field theory can be realized in lattice m are free of the sign problem and so is to large-scale QMC studies. Our claim contradict the no-go theorem of (5), b do not provide a general recipe for e the sign problem. However, we will it for the specific case of the onset ...
... Here, we show that the universa field theory can be realized in lattice m are free of the sign problem and so is to large-scale QMC studies. Our claim contradict the no-go theorem of (5), b do not provide a general recipe for e the sign problem. However, we will it for the specific case of the onset ...
“Relative State” Formulation of Quantum Mechanics
... only by the state of the remaining subsystem. In other words, the states occupied by the subsystems are not independent, but correlated. Such correlations between systems arise whenever systems interact. In the present formulation all measurements and observation processes are to be regarded simply ...
... only by the state of the remaining subsystem. In other words, the states occupied by the subsystems are not independent, but correlated. Such correlations between systems arise whenever systems interact. In the present formulation all measurements and observation processes are to be regarded simply ...
From Quantum Gates to Quantum Learning: recent research and
... • Put all 7-bits into a superposition state • superposition allows quantum computer to make calculations on all 128 possible numbers (27) in ONE iteration i.e. finishes in 1 second. • Tremendous possibilities… imagine doing computations on even larger sample spaces all at the same time!!! ...
... • Put all 7-bits into a superposition state • superposition allows quantum computer to make calculations on all 128 possible numbers (27) in ONE iteration i.e. finishes in 1 second. • Tremendous possibilities… imagine doing computations on even larger sample spaces all at the same time!!! ...
