ABSTRACT ADIABATIC QUANTUM COMPUTATION: NOISE IN THE ADIABATIC THEOREM AND USING THE JORDAN-WIGNER
... ground-state energy gap can be found analytically. These Hamiltonian evolutions are more complex than (1.3) in that they allow terms with interactions between qubits with non-adjacent indices (“non-nearest-neighbor interactions”). We then identify ...
... ground-state energy gap can be found analytically. These Hamiltonian evolutions are more complex than (1.3) in that they allow terms with interactions between qubits with non-adjacent indices (“non-nearest-neighbor interactions”). We then identify ...
Do quantum strategies always win?
... the classical penny flip. The two states of the penny, heads and tails are now the maximally entangled or the completely separable states. There is however a crucial difference between the classical penny flip and the entangled quantum penny flip. In the former there is no ‘draw’ while in the latter ...
... the classical penny flip. The two states of the penny, heads and tails are now the maximally entangled or the completely separable states. There is however a crucial difference between the classical penny flip and the entangled quantum penny flip. In the former there is no ‘draw’ while in the latter ...
Introduction to Supersymmetry
... of an elementary scalar. Supersymmetry relates it to the self-energy of a fermion, which is only logarithmically logarithmically sensitive to the fundamental high energy scale. Conclusion: quadratic sensitivity is removed! The hierarchy problem is resolved. However, no super-partner (degenerate in m ...
... of an elementary scalar. Supersymmetry relates it to the self-energy of a fermion, which is only logarithmically logarithmically sensitive to the fundamental high energy scale. Conclusion: quadratic sensitivity is removed! The hierarchy problem is resolved. However, no super-partner (degenerate in m ...
PDF
... The signal and idler photons are routed down L-km-long lengths of standard telecommunication optical fiber—the signal photons proceeding down one fiber and the idler photons down the other—to a pair of quantum memories comprised of 87 Rb atoms that are trapped inside high-Q optical cavities [9]. One ...
... The signal and idler photons are routed down L-km-long lengths of standard telecommunication optical fiber—the signal photons proceeding down one fiber and the idler photons down the other—to a pair of quantum memories comprised of 87 Rb atoms that are trapped inside high-Q optical cavities [9]. One ...
PyProp - A Python Framework for Propagating the Time
... instead of assigning position and momentum to each particle, one should rather consider all possible values of position and momentum simultaneously. This consideration turns the equations of motion from a set of coupled ordinary differential equations into a partial differential equation (PDE) calle ...
... instead of assigning position and momentum to each particle, one should rather consider all possible values of position and momentum simultaneously. This consideration turns the equations of motion from a set of coupled ordinary differential equations into a partial differential equation (PDE) calle ...
Chapter 2
... • A body that is rotating tends to remain rotating. • A body that is not rotating tends to remain not rotating. ...
... • A body that is rotating tends to remain rotating. • A body that is not rotating tends to remain not rotating. ...
Quantum analogue computing
... multiple quantum trajectories looks like a classical parallel computer, which calculates the result of many different input values in the time it takes for one processor to do one input value. Except that the quantum system does not need a stack of CPUs, the parallel processing comes ‘for free’ with ...
... multiple quantum trajectories looks like a classical parallel computer, which calculates the result of many different input values in the time it takes for one processor to do one input value. Except that the quantum system does not need a stack of CPUs, the parallel processing comes ‘for free’ with ...
Realization of the Cirac–Zoller controlled
... pulse sequence replaces the 2p-rotation on an auxiliary transition as originally proposed by Cirac and Zoller1. The two ions are prepared in their respective eigenstates, that is, in either the j1i l ¼ jSl ; j0l or j1i l ¼ jDl ; j1l states using single qubit rotations. In order to trace the state of ...
... pulse sequence replaces the 2p-rotation on an auxiliary transition as originally proposed by Cirac and Zoller1. The two ions are prepared in their respective eigenstates, that is, in either the j1i l ¼ jSl ; j0l or j1i l ¼ jDl ; j1l states using single qubit rotations. In order to trace the state of ...
Co-requisite modules
... Mechanics given in module PH-205 and applies it to some important problems. ...
... Mechanics given in module PH-205 and applies it to some important problems. ...
The music of the primes, harmonic music noise between red and
... energy levels, that is eigenvalues of a Hermitian quantum (“Riemann”) operator associated with the classical Hamiltonian H(x,p)=xp, where x is the (one-dimensional) position coordinate and p the conjugate momentum. “The non-trivial zeros of Riemann's zeta function arise from inquiries into the distr ...
... energy levels, that is eigenvalues of a Hermitian quantum (“Riemann”) operator associated with the classical Hamiltonian H(x,p)=xp, where x is the (one-dimensional) position coordinate and p the conjugate momentum. “The non-trivial zeros of Riemann's zeta function arise from inquiries into the distr ...
