Production of Phonon Schr ¨odinger Cat States in Benzoid Rings

... On the other hand, Schrödinger’s paper on the current situation of quantum mechanics, published in 1935[5], proposes a Gedankenexperiment to prepare superpositions of dead and alive cats, which highlights that the vast majority of states allowed by quantum mechanics are not observed in our macrosco ...

Properties of atoms result from electron configuration

... Schrödinger’s work conﬁrmed the wave behavior of electrons and allowed scientists to calculate, or predict, the likely location of an atom’s electrons. The square of the wave function, ψ2, represents the ...

Document

... • Uncertainty: 1927 Heisenberg demonstrates that all statements about the movement of a particle are governed by the uncertainty relationship: the more accurately you know its position, the less accurately you know its velocity, and vice versa. • The Copenhagen Interpretation: 1928 Bohr relates Hei ...

Rotation, Time Revolution and its Biological effect

... As some of our masters have helped us in the physical part of study, due to their suggestion this thesis has been named TRS (Time Revolution and Spin) and for more results, more study and researches are needed. In the theory of relativity in physics, the parameters which differentiates this theory f ...

ac-Driven Atomic Quantum Motor - Physik Uni

Electron Transport in a Double Quantum Dot Governed by a... Oleg N. Jouravlev* and Yuli V. Nazarov

... Although QMC can be performed with convenient magnetic resonance techniques [1], this necessarily involves macroscopically many identical spins. The challenge is to do QMC with individual spin states, e.g., those of localized electrons. Remarkable experimental progress has been recently achieved in ...

Holography in Classical and Quantum Gravity

Physical Origin of Elementary Particle Masses

Description of quantum coherence in thermodynamic

... integral in terms of heat ﬂow16. This thermodynamic entropy function is then assumed (but often not proved) to completely describe the irreversible constraints on the system at hand. Alternative approaches follow a statistical mechanical treatment of the system based on underlying microstates, and p ...

Full Text

... student understanding of quantum physics. Altogether 103 Finnish university students responded to QPCS. The mean scores of the student responses were calculated and the test was evaluated using common five indices: Item difficulty index, Item discrimination index, Item point biserial index, Kuder-Ri ...

M.Sc. CCSS 2010

... and Lagrange’s equation, Velocity dependent potentials, Simple applications, Calculus of variations, Hamilton’s Principle, Lagrange’s equation from Hamilton’s principle, Two-body central force problems, Equivalent one-body and one-dimensional problem, Kepler problem, Laplace-Runge-Lenz vector, Scatt ...

On the Investigation of Quantum Evolution of a

... in the Hilbert space is shown in Figure 5. The figure shows how the vector elements were changing in time due to aforesaid evolution in the complex phase plane. Finally, time evolution of the corresponding portion of the photon packet in real-space (x-axis) is given in Figure 6. Real-space instantan ...

Complete Axiomatizations for Quantum Actions

... Computer Science as “labeled transition systems”, and in modal logic as “(multimodal) Kripke frames”. It takes as fundamental the notion of (quantum) state and represents quantum actions as relations between states. This is the wellknown input-output view of programs, identifying them with their “be ...

Non-contextual inequalities and dimensionality Johan Ahrens

... that if you find the photon at this point it is this specific eigenstate. ...

ERC-focus (English)

... handed and right-handed) options. Also the gluons carry spin which is, like in the case of photons, referred to as polarization. This maze of orbiting spinning quarks and polarized gluons makes up the proton. The up and down quarks and the leptons, the electron and the up to now not mentioned electr ...

Term Symbols

... 2. Spin Angular Momentum. Molecular states use the same classification scheme for spin angular momentum as the atomic states. Spin degeneracy is also determined by the same method as for atomic states: spin degeneracy  g s  2S  1 and is written as an upper left superscript of the term symbol. In ...

Security Aspects of Practical Quantum Cryptography

... be based on existing—or nearly existing—technology, but its security must be guaranteed against an eavesdropper with unlimited computing power whose technology is limited only by the rules of quantum mechanics. The experiments that have been performed so far are usually based on weak coherent pulses ...

Optimal parallel quantum query algorithms

Solid state Stern-Gerlach spin-splitter for magnetic field sensoring

... Quantum computer gate.—Having seen how an SG TI device can be used to construct classical logic gates for spintronics, we finally turn to possible applications in quantum computing. It has been shown that a universal quantum computer can be built using only two-qubit CNOT-gates and single-qubit SU ( ...

Research Article Mathematical Transform of Traveling

... x1 , x2 , x3 representing to the vector of position, q0 representing the angular frequency ,and q q1 , q2 , q3 representing the wave vector. The measurement system is chosen so as c 1, h/2π 1 for performing a better correspondence from the angular frequency to the energy and from the wav ...

Lower Bounds on Matrix Rigidity via a Quantum

... communication complexity [12]. It should be noted that the use of quantum computing is not strictly necessary for either of our results. The first is proved in two steps: (1) using the quantum approach we show that every a × b submatrix of H has rank at least ab/n and (2) using a non-quantum argumen ...

Part 1 - SCIPP

... Assume that the photons move in the x̂ direction after the annihilation. The four-momentum after the collision while thus be: ...

Quantum Interaction Approach in Cognition, Artificial Intelligence

... approaches. Quantum mechanics then provided a fresch conceptual framework to address these problems in a totally new light. Hence, a Quantum Interaction Approach was born as an interdisciplinary perspective in which the formalism of quantum mechanics was used to model specific situations in domains ...

Comment on “The quantum pigeonhole principle and the nature of

Assessing the Nonequilibrium Thermodynamics in a

... We thus need to find jnðλτ Þi such that jhnðλτ ÞjB̂jiij is maximum and then change our Hamiltonian in a time τ given by Eq. (21). This is a strong condition though, as if it is fulfilled, the state is not changing at all. If, for example, the quenched operator is not limited in the norm instead, the ...

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Canonical quantization

In physics, canonical quantization is a procedure for quantizing a classical theory, while attempting to preserve the formal structure, such as symmetries, of the classical theory, to the greatest extent possible.Historically, this was not quite Werner Heisenberg's route to obtaining quantum mechanics, but Paul Dirac introduced it in his 1926 doctoral thesis, the ""method of classical analogy"" for quantization, and detailed it in his classic text. The word canonical arises from the Hamiltonian approach to classical mechanics, in which a system's dynamics is generated via canonical Poisson brackets, a structure which is only partially preserved in canonical quantization.This method was further used in the context of quantum field theory by Paul Dirac, in his construction of quantum electrodynamics. In the field theory context, it is also called second quantization, in contrast to the semi-classical first quantization for single particles.

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Canonical quantization