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Main Author: Hagmann, Mark J
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2404.13415
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author Hagmann, Mark J
author_facet Hagmann, Mark J
contents We used analytical methods to study the interaction of electrons with shunted models consisting of a rectangular, triangular, or delta function. potential barrier in series with a pre-barrier region at zero potential. In each model the shunted boundary conditions cause the matrix equation to have only zeros in the right-hand column vector. Thus, the determinant for each matrix must be zero for a non-trivial solution. The determinant for each model contains only the parameters (e.g. the length of the shunt, the length and height of the barrier, and the electron energy). Thus, the complete set of solutions for each model is obtained by using algebra to determine all of the points in the parameter space, and then to calculate the coefficients for each model. Any path from one point to another in the parameter space corresponds to a possible history for the operation of the model. In prototypes the shunts could be filaments of certain metals that provide quasi-coherent electron transport over mean-free paths of tens of nm. Quasi-static simulations of the time-independent Schrodinger equation suggest that a device with a size of 100 nm could operate at frequencies up to 1,000 THz.
format Preprint
id arxiv_https___arxiv_org_abs_2404_13415
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Analytical solutions for five examples of shunted tunneling junctions showing promise for terahertz applications
Hagmann, Mark J
Quantum Physics
We used analytical methods to study the interaction of electrons with shunted models consisting of a rectangular, triangular, or delta function. potential barrier in series with a pre-barrier region at zero potential. In each model the shunted boundary conditions cause the matrix equation to have only zeros in the right-hand column vector. Thus, the determinant for each matrix must be zero for a non-trivial solution. The determinant for each model contains only the parameters (e.g. the length of the shunt, the length and height of the barrier, and the electron energy). Thus, the complete set of solutions for each model is obtained by using algebra to determine all of the points in the parameter space, and then to calculate the coefficients for each model. Any path from one point to another in the parameter space corresponds to a possible history for the operation of the model. In prototypes the shunts could be filaments of certain metals that provide quasi-coherent electron transport over mean-free paths of tens of nm. Quasi-static simulations of the time-independent Schrodinger equation suggest that a device with a size of 100 nm could operate at frequencies up to 1,000 THz.
title Analytical solutions for five examples of shunted tunneling junctions showing promise for terahertz applications
topic Quantum Physics
url https://arxiv.org/abs/2404.13415