Gravity and dark energy from quantum information
... represents the truth value of one proposition only (bit?). This principle is then the reason for the irreducible randomness of an individual quantum event and for quantum entanglement Cˇ . Brukner, A. Zeilinger ...
... represents the truth value of one proposition only (bit?). This principle is then the reason for the irreducible randomness of an individual quantum event and for quantum entanglement Cˇ . Brukner, A. Zeilinger ...
Quantum Gravity: The View From Particle Physics
... (UV) divergences that inevitably appear in higher order Feynman diagrams require a carefully crafted procedure for their removal, if one is to arrive at testable predictions. This renormalization prescription in essence amounts to an order by order tuning of a finite number of parameters by infinite ...
... (UV) divergences that inevitably appear in higher order Feynman diagrams require a carefully crafted procedure for their removal, if one is to arrive at testable predictions. This renormalization prescription in essence amounts to an order by order tuning of a finite number of parameters by infinite ...
useful links quantum speed test
... multiplication: in just a few steps you can multiply two relatively large numbers. Going in the opposite direction —finding the prime factors of a number—is a much harder problem. In practical computing terms this means that it takes many more steps in the factoring computation to get to the final a ...
... multiplication: in just a few steps you can multiply two relatively large numbers. Going in the opposite direction —finding the prime factors of a number—is a much harder problem. In practical computing terms this means that it takes many more steps in the factoring computation to get to the final a ...
Thermal Physics PH2001
... aspects (I.e. vibrational energies, electronic energies and magnetic energies). However, if one such aspect or subsystem is effectively decoupled from the others, so they do not interact, that subsystem may be considered to reach internal equilibrium without being in equilibrium with the others. • T ...
... aspects (I.e. vibrational energies, electronic energies and magnetic energies). However, if one such aspect or subsystem is effectively decoupled from the others, so they do not interact, that subsystem may be considered to reach internal equilibrium without being in equilibrium with the others. • T ...
A short course on Quantum Mechanics and its Geometry
... no longer valid: quantum objects are neither particles nor waves, even if they might look as if behaving like a particle or like a wave in some circumstances, and they have to be described in terms of a new set of principles [12]. It is possible to recognise the consequences of this duality principl ...
... no longer valid: quantum objects are neither particles nor waves, even if they might look as if behaving like a particle or like a wave in some circumstances, and they have to be described in terms of a new set of principles [12]. It is possible to recognise the consequences of this duality principl ...
Paper
... length scale, which depends on the mass of the particle [16]. Beyond this scale, the behavior is dominated by gravitational effects which do not permit spatial superpositions and may lead to classical-like behavior. The Planck’s mass (which value is high being of the order of 10-5 g) corresponds to ...
... length scale, which depends on the mass of the particle [16]. Beyond this scale, the behavior is dominated by gravitational effects which do not permit spatial superpositions and may lead to classical-like behavior. The Planck’s mass (which value is high being of the order of 10-5 g) corresponds to ...
string theory.
... I have not mentioned string theory. This seems to be a new theory of quantum gravity, which only uses known principle (gauge fields). But when we get gravity in this way, in fact we seem to get everything else: strings, branes, extra ...
... I have not mentioned string theory. This seems to be a new theory of quantum gravity, which only uses known principle (gauge fields). But when we get gravity in this way, in fact we seem to get everything else: strings, branes, extra ...
The Complex Geometry of the Natural World
... (up to phase multipliers) correspond to massless particles with spin. The helicity is given by the value \hI(Za). Moreover, it is envisaged that when the space-time is curved, or endowed with an electromagnetic field, or a more general gauge field, [8], the twistor space should acquire a more compli ...
... (up to phase multipliers) correspond to massless particles with spin. The helicity is given by the value \hI(Za). Moreover, it is envisaged that when the space-time is curved, or endowed with an electromagnetic field, or a more general gauge field, [8], the twistor space should acquire a more compli ...
Recovery of classical chaotic-like behaviour in a quantum three
... Following past work 关7–17兴 on recovering classically chaoticlike orbits from a system’s quantum counterpart we solve the unravelling of the master equation 共1兲 with Hamiltonian 共2兲. For this example there are three points of note with regard to possible choices of the environmental degrees of freedo ...
... Following past work 关7–17兴 on recovering classically chaoticlike orbits from a system’s quantum counterpart we solve the unravelling of the master equation 共1兲 with Hamiltonian 共2兲. For this example there are three points of note with regard to possible choices of the environmental degrees of freedo ...
CONCORDIA DISCORS: Wave-Particle Duality in the 3rd Century BC?
... problems in classical mechanics and Quantum mechanics (wave-particle duality) came to the rescue into solving them. It further becomes even more fascinating and captivating. ...
... problems in classical mechanics and Quantum mechanics (wave-particle duality) came to the rescue into solving them. It further becomes even more fascinating and captivating. ...
Science, consciousness and World-View
... Galileo and Newton, had a clear picture of absolute physical reality, an ultimate specification of what was the case for the physical universe at any given time: namely, the exact positions and velocities of every particle in the universe at that time. No one could know this, of course, but the fact ...
... Galileo and Newton, had a clear picture of absolute physical reality, an ultimate specification of what was the case for the physical universe at any given time: namely, the exact positions and velocities of every particle in the universe at that time. No one could know this, of course, but the fact ...