Optical Stark decelerator for molecules with a traveling potential well

When \Delta x \Delta p < \hbar / 2 happens at the same time when the entropy reaches its maximum value, the boson will condense, and if there is a potential well but it does not explode, then the boson will gain high energy (more than normal).This article is to illustrate the possibility of a kind of Bose particle to obtain high energy.

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Thickness and potential well yield of the stratified deposits in the Croton River Basin, Putnam County, New York

10.3133/wri874120 ◽

1988 ◽

Keyword(s):

New York ◽

River Basin ◽

Potential Well ◽

Well Yield ◽

Putnam County

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Quantum Tunneling

10.1093/oso/9780198808275.003.0014 ◽

2017 ◽

Author(s):

Frank S. Levin

Keyword(s):

Quantum Tunneling ◽

Alpha Particles ◽

Attractive Potential ◽

Scanning Tunneling ◽

Finite Width ◽

Potential Well ◽

Surface Molecules ◽

Repulsive Coulomb ◽

The Subject ◽

The One

Quantum tunneling, wherein a quanject has a non-zero probability of tunneling into and then exiting a barrier of finite width and height, is the subject of Chapter 13. The description for the one-dimensional case is extended to the barrier being inverted, which forms an attractive potential well. The first application of this analysis is to the emission of alpha particles from the decay of radioactive nuclei, where the alpha-nucleus attraction is modeled by a potential well and the barrier is the repulsive Coulomb potential. Excellent results are obtained. Ditto for the similar analysis of proton burning in stars and yet a different analysis that explains tunneling through a Josephson junction, the connector between two superconductors. The final application is to the scanning tunneling microscope, a device that allows the microscopic surfaces of solids to be mapped via electrons from the surface molecules tunneling into the tip of the STM probe.

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Potential Well in Poincaré Recurrence

Entropy ◽

10.3390/e23030379 ◽

2021 ◽

Vol 23 (3) ◽

pp. 379

Author(s):

Miguel Abadi ◽

Vitor Amorim ◽

Sandro Gallo

Keyword(s):

Dynamical System ◽

Dynamical Systems ◽

Stochastic Processes ◽

Recurrence Time ◽

Potential Well ◽

Exponential Approximation ◽

Mixing Processes ◽

System Perspective ◽

Return Times ◽

Error Terms

From a physical/dynamical system perspective, the potential well represents the proportional mass of points that escape the neighbourhood of a given point. In the last 20 years, several works have shown the importance of this quantity to obtain precise approximations for several recurrence time distributions in mixing stochastic processes and dynamical systems. Besides providing a review of the different scaling factors used in the literature in recurrence times, the present work contributes two new results: (1) For ϕ-mixing and ψ-mixing processes, we give a new exponential approximation for hitting and return times using the potential well as the scaling parameter. The error terms are explicit and sharp. (2) We analyse the uniform positivity of the potential well. Our results apply to processes on countable alphabets and do not assume a complete grammar.

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Escape of a forced-damped particle from weakly nonlinear truncated potential well

Nonlinear Dynamics ◽

10.1007/s11071-020-05987-8 ◽

2021 ◽

Author(s):

M. Farid ◽

O. V. Gendelman

Keyword(s):

Potential Well ◽

Weakly Nonlinear

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Existence and concentration behavior of solutions to Kirchhoff type equation with steep potential well and critical growth

Journal of Mathematical Physics ◽

10.1063/5.0028510 ◽

2021 ◽

Vol 62 (1) ◽

pp. 011506

Author(s):

Jian Zhang ◽

Zhenluo Lou

Keyword(s):

Type Equation ◽

Critical Growth ◽

Potential Well ◽

Kirchhoff Type ◽

Kirchhoff Type Equation ◽

Steep Potential Well ◽

Concentration Behavior

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Bound states of a Klein–Gordon particle in the presence of a smooth potential well

International Journal of Modern Physics A ◽

10.1142/s0217751x20501407 ◽

2020 ◽

Vol 35 (23) ◽

pp. 2050140

Author(s):

Eduardo López ◽

Clara Rojas

Keyword(s):

Bound States ◽

Gordon Equation ◽

Bound State ◽

Potential Well ◽

One Dimensional ◽

Smooth Potential ◽

Klein Gordon ◽

The One ◽

Potential Parameters ◽

Klein Gordon Equation

We solve the one-dimensional time-independent Klein–Gordon equation in the presence of a smooth potential well. The bound state solutions are given in terms of the Whittaker [Formula: see text] function, and the antiparticle bound state is discussed in terms of potential parameters.

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