Google DeepMind Neural Networks

... So deep neural networks don’t have to approximate any possible mathematical function, only a tiny subset of them. To put this in perspective, consider the order of a polynomial function, which is the size of its highest exponent. So a quadratic equation like y=x2 has order 2, the equation y=x24 has ...

Heat Engine Driven by Purely Quantum Information

Quantum Computation - School of Computing Science

... it, and of how quantum mechanics is to be applied. With this we know what physics is about, and how it is to go on. Now for the measurement problem on this strategy. A first version is this: microscopic systems (and hence the macroscopic) are in some sense probabilistic. If the state says all there ...

Lecture 4: Quantum states of light — Fock states • Definition Fock

Dark Energy from Violation of Energy Conservation

Quantum-confined Stark effect at 1.3 µm in Ge/SiGe quantum

Quantum Dynamics

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Art Hobson There are no particles, there are only fields 1

... dominated by particles. Thus the non-relativistic quantum physics of matter that developed in the mid-1920s was couched in particle language, and quantum physics was called "quantum mechanics" in analogy with the Newtonian mechanics of indestructible particles in empty space.30 But ironically, the c ...

7. Some Modern Applications of Quantum Mechanics

preskill-ARO-2013 - Caltech Particle Theory

Concepts and Applications of Effective Field Theories: Flavor

Galilei covariance and Einstein`s equivalence principle in quantum

On the role of entanglement in quantum information

... is encoded in quantum states in such a way that Alice and Bob can be aware of any attempt to gain some knowledge about it. Actually, a measurement performed on the quantum system in which the key is encoded in general perturbs it and the perturbation can be detected by the legitimate users. The secu ...

Bell Inequalities

Quantum Information and Spacetime

Pulsed field ionization of Rydberg atoms

Testing noncontextuality inequalities that are building blocks of

... observers, Alice and Bob, perform independent measurements on their respective particles. In this scenario, an event can be characterized as follows: Given the initial quantum state ψ, Alice measures observable A0 and obtains outcome 0 and Bob measures B0 and obtains outcome 0. We may denote this ev ...

Quantum Numbers and Orbitals

Particle in a box

... surface state which can be ‘trapped’ in the corral Thu. Nov. 29 2007 ...

Anomaly of non-locality and entanglement in teaching quantum

... study the singlet state as a paradigm. When the two spin(1/2) particles are moving apart, towards two distant observers –Alice and Bob, a quite common terminology borrowed from information theory– their spins will be measured locally (usually along the z-axis for simplicity). Students are told that ...

Quantum Time Crystals - DSpace@MIT

... ( 1=N) attraction instead of repulsion, the ground state physics is very different. In general low-dimensional models of spontaneous symmetry breaking are subject to derangement by fluctuations [4]. Since our extremely inhomogeneous approximate ground state does not support low-energy, long-wavelen ...

The BEH Mechanism and its Scalar Boson by François Englert

Can Bohmian Mechanics Be Made Background Independent?

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Quantum field theory

In theoretical physics, quantum field theory (QFT) is a theoretical framework for constructing quantum mechanical models of subatomic particles in particle physics and quasiparticles in condensed matter physics. A QFT treats particles as excited states of an underlying physical field, so these are called field quanta.In quantum field theory, quantum mechanical interactions between particles are described by interaction terms between the corresponding underlying fields.

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Quantum field theory