why do physicists think that there are extra dimensions
... if extra spatial dimensions exist, they must be (for some reason) difficult to probe physicists have uncovered several possible explanations: ...
... if extra spatial dimensions exist, they must be (for some reason) difficult to probe physicists have uncovered several possible explanations: ...
Reversible work extraction in a hybrid opto
... have introduced the excited emitter population Pe (t ) = Trq (ρq (t )(σz + 1) 2. As explained above, Pe is a constant of time in the quasi-static situation under study. In this part, we do not consider any heat exchanges with external thermal baths yet, focusing therefore on the case of adiabatic tr ...
... have introduced the excited emitter population Pe (t ) = Trq (ρq (t )(σz + 1) 2. As explained above, Pe is a constant of time in the quasi-static situation under study. In this part, we do not consider any heat exchanges with external thermal baths yet, focusing therefore on the case of adiabatic tr ...
MCDT-NearMagEquiv-(PCCP subm)
... be ‘extremely-strongly-coupled’, or ‘nearly-equivalent’. The NMR spectrum of nearly-equivalent spin pairs displays a single peak since the spin-spin coupling suppresses the effect of the small chemical shift difference. This situation is found at high magnetic fields when the chemical shifts of two ...
... be ‘extremely-strongly-coupled’, or ‘nearly-equivalent’. The NMR spectrum of nearly-equivalent spin pairs displays a single peak since the spin-spin coupling suppresses the effect of the small chemical shift difference. This situation is found at high magnetic fields when the chemical shifts of two ...
Quantum computation and Shor`s factoring algorithm
... restriction at all on computing power. This is an important observation since the model of quantum computation introduced below is automatically reversible. Bennett’s result also shows that the performance of any computation does not require any necessary intrinsic energy dissipation. Remark. The co ...
... restriction at all on computing power. This is an important observation since the model of quantum computation introduced below is automatically reversible. Bennett’s result also shows that the performance of any computation does not require any necessary intrinsic energy dissipation. Remark. The co ...
Randomness in (Quantum) Information Processing
... The main focus of this thesis are applications of randomness in classical and quantum information processing, especially in cryptography. The accent is on production of high-quality randomness (randomness extraction), efficient usage of randomness (design of applications consuming as little randomne ...
... The main focus of this thesis are applications of randomness in classical and quantum information processing, especially in cryptography. The accent is on production of high-quality randomness (randomness extraction), efficient usage of randomness (design of applications consuming as little randomne ...
physical principles of advanced space propulsion based on heims`s
... rise to a novel concept for an advanced space transportation technology, permitting, in principle, superluminal travel. This theory predicts the existence of a quasi antigravitational force, and allows the design of an experiment for the verification of this theory. This theory of quantum gravity, b ...
... rise to a novel concept for an advanced space transportation technology, permitting, in principle, superluminal travel. This theory predicts the existence of a quasi antigravitational force, and allows the design of an experiment for the verification of this theory. This theory of quantum gravity, b ...
rotational inertia
... extending your arms, rolling up in a ball, etc. By doing that, you will rotate or spin more easily or less easily, depending on if you increased or decreased your rotational inertia. Gymnasts, ice-skaters, divers, and dancers all use ...
... extending your arms, rolling up in a ball, etc. By doing that, you will rotate or spin more easily or less easily, depending on if you increased or decreased your rotational inertia. Gymnasts, ice-skaters, divers, and dancers all use ...
