Chapter 1
... (classical) probabilistic computer is more powerful than a deterministic (classical) computer. Based on the above property of probabilistic measurement a quantum computer is at least as powerful as a classical deterministic computer or a classical probabilistic computer. Quantum computer can be in p ...
... (classical) probabilistic computer is more powerful than a deterministic (classical) computer. Based on the above property of probabilistic measurement a quantum computer is at least as powerful as a classical deterministic computer or a classical probabilistic computer. Quantum computer can be in p ...
Quantum Position Verification in the Random Oracle Model
... is a phenomenon where one quantum state cannot be described without describing another state that is entangled with it. As an important property entangled states influence each others measurements outcomes and can therefore be used to achieve the same measurement outcome on two systems without addit ...
... is a phenomenon where one quantum state cannot be described without describing another state that is entangled with it. As an important property entangled states influence each others measurements outcomes and can therefore be used to achieve the same measurement outcome on two systems without addit ...
Coherenc
... where M and m are the maximum and minimum eigenvalues of the correlation matrix M introduced above. This formula for Vmax is the same formula for the degree of polarization of a two-dimensional wave where the matrix M is 2 2 . Therefore, Vmax is a proper generalization of the degree of polariza ...
... where M and m are the maximum and minimum eigenvalues of the correlation matrix M introduced above. This formula for Vmax is the same formula for the degree of polarization of a two-dimensional wave where the matrix M is 2 2 . Therefore, Vmax is a proper generalization of the degree of polariza ...
numerical simulations of strongly correlated electron and spin systems
... consider novel variational wavefunctions, christened "Correlator Product States" (CPS), that have a general functional form which hopes to capture essential correlations in the ground states of spin and fermion systems in any dimension. We also consider a recent proposal to modify projector (Green’s ...
... consider novel variational wavefunctions, christened "Correlator Product States" (CPS), that have a general functional form which hopes to capture essential correlations in the ground states of spin and fermion systems in any dimension. We also consider a recent proposal to modify projector (Green’s ...
Dynamics of Open Quantum Systems
... This latter feature is crucial. For example, the non-Markovian (colored) Gaussian quantum noise with real-valued correlation Sξξ (t) = Sξξ (−t) cannot simply be substituted by a classical non-Markovian Gaussian noise force which identically obeys the correlation properties of (Gaussian) quantum nois ...
... This latter feature is crucial. For example, the non-Markovian (colored) Gaussian quantum noise with real-valued correlation Sξξ (t) = Sξξ (−t) cannot simply be substituted by a classical non-Markovian Gaussian noise force which identically obeys the correlation properties of (Gaussian) quantum nois ...
Earman, John, "Aspects of Determinism in Modern Physics"
... (CP) When certain effects show a certain asymmetry, this asymmetry must be found in the causes which gave rise to it. [Curie 1894, 401] Some commentators see in this Principle profound truth, while others see only falsity, and still others see triviality (compare [Chalmers, 1970]; [Radicati, 1987]; [ ...
... (CP) When certain effects show a certain asymmetry, this asymmetry must be found in the causes which gave rise to it. [Curie 1894, 401] Some commentators see in this Principle profound truth, while others see only falsity, and still others see triviality (compare [Chalmers, 1970]; [Radicati, 1987]; [ ...
Disorder-induced order with ultra-cold atoms
... In order to study disorder effects, it is hugely beneficial and often indispensable to control the disordered quantity. In most solid states systems, however, disorder originates from noisy experimental parameters and is thus very difficult to control. In recent years, ultra-cold atomic gases have b ...
... In order to study disorder effects, it is hugely beneficial and often indispensable to control the disordered quantity. In most solid states systems, however, disorder originates from noisy experimental parameters and is thus very difficult to control. In recent years, ultra-cold atomic gases have b ...
Design of beam splitters and microlasers using
... I-type QBS excited in the milti-cavity resonator of Fig. 1(b). Even though a multi-cavity resonators is of general interest in the field of optics, one may also consider the construction of a micro laser using a resonant multicavity. A multi-cavity micro laser would have two main advantages: (i) the ...
... I-type QBS excited in the milti-cavity resonator of Fig. 1(b). Even though a multi-cavity resonators is of general interest in the field of optics, one may also consider the construction of a micro laser using a resonant multicavity. A multi-cavity micro laser would have two main advantages: (i) the ...
DENSITY CONCEPT IN MOLECULES AND MATERIALS
... The basic ideas underlying the versatile uses of the concept of density in the modeling of molecules and materials, as visualized in various length scales, are outlined. In the microscopic length scale, it is the electron density that has played a major role in providing a deeper understanding of ch ...
... The basic ideas underlying the versatile uses of the concept of density in the modeling of molecules and materials, as visualized in various length scales, are outlined. In the microscopic length scale, it is the electron density that has played a major role in providing a deeper understanding of ch ...
3 Types of Chemical Reactions
... For example, if someone holds down the darker ball in the collision shown above, it will not move. In that case, the momentum of the lighter ball would be transferred to the person holding the ball. The person is exerting an outside force. The law of conservation of momentum is true for objects that ...
... For example, if someone holds down the darker ball in the collision shown above, it will not move. In that case, the momentum of the lighter ball would be transferred to the person holding the ball. The person is exerting an outside force. The law of conservation of momentum is true for objects that ...
Steady State Entanglement in Quantum Dot Networks
... on all the states of the qubits:|0i1 |0i2 , |0i1 |1i2 , |1i1 |0i2 , and |1i1 |1i2 at once. However, we need to come up with a clever algorithm to exploit quantum parallelism, because a read-out of the result of the computation is done by measuring the value of (some of) the qubits and that collapses ...
... on all the states of the qubits:|0i1 |0i2 , |0i1 |1i2 , |1i1 |0i2 , and |1i1 |1i2 at once. However, we need to come up with a clever algorithm to exploit quantum parallelism, because a read-out of the result of the computation is done by measuring the value of (some of) the qubits and that collapses ...
