### 103 results for qubit oscillator frequency

Contributors: Ying-Jie Chen, Hai-Tao Song, Jing-Lin Xiao

Date: 2017-10-14

Temperature effects on polaron in triangular quantum dot **qubit** subjected to an electromagnetic field are studied.
We derive the numerical results and formulate the derivative relationships of the ground and first
excited state energies, the electron probability density and the electron **oscillating** period in the superposition state of
the ground state and the first-excited state with the temperature, the cyclotron **frequency**, the electron-phonon coupling
constant, the electric field strength, the confinement strength and the Coulomb impurity potential, respectively....6-The electron **oscillating** period as functions of the temperature and the cyclotron **frequency** in triangular quantum dot **qubit** under an electric field.docx...7-The electron **oscillating** period as functions of the temperature and the electron-phonon coupling constant and etc. in triangular quantum dot **qubit** under an electric field.docx...2-The first excited state energy as functions of the temperature and the cyclotron **frequency** in triangular quantum dot **qubit** under an electric field.docx...3-The ground state energy as functions of the temperature and the electron-phonon coupling constant and etc. in triangular quantum dot **qubit** under an electric field.docx...1-The ground state energy as functions of the temperature and the cyclotron **frequency** in triangular quantum dot **qubit** under an electric field.docx ... Temperature effects on polaron in triangular quantum dot **qubit** subjected to an electromagnetic field are studied.
We derive the numerical results and formulate the derivative relationships of the ground and first
excited state energies, the electron probability density and the electron **oscillating** period in the superposition state of
the ground state and the first-excited state with the temperature, the cyclotron **frequency**, the electron-phonon coupling
constant, the electric field strength, the confinement strength and the Coulomb impurity potential, respectively.

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Contributors: Noah Phipps

Date: 2019-03-07

Data from a 1st Year Forced **Oscillations** lab experiment....Forced **Oscillations**, All Data.xlsx...**Oscillation** ... Data from a 1st Year Forced **Oscillations** lab experiment.

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Contributors: H M Dipu Kabir, Shairfe Salahuddin

Date: 2017-10-19

High **Frequency** **Oscillations**...High **Frequency** Electronics...Data for: A **Frequency** Multiplier Using Three Ambipolar Graphene Transistors...**Frequency** Spectrum Analysis...**Frequency** Domain Spectroscopy...High **Frequency** Oscillations ... All plot-data of the paper with a Matlab script to draw figures.

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Contributors: Samad Sheikhaei, bahram jafari

Date: 2018-08-29

Data for: A Low Phase Noise Super–Harmonic Coupling Quadrature VCO Using an Additional Double **Frequency** **Oscillator**...These files are the schematic files of the quadrature **oscillator**, proposed in the paper. The files are related to the Cadence integrated circuit design environment. ... These files are the schematic files of the quadrature **oscillator**, proposed in the paper. The files are related to the Cadence integrated circuit design environment.

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### Data for: A Method for Selection of Structural Theories for Low to High **Frequency** Vibration Analyses

Contributors: Mostafa Sadeghmanesh, Hassan Haddadpour, Hossein M. Navazi, Mohammad Tahaye Abadi

Date: 2019-01-23

High **Frequency** **Oscillations**...A Method for Selection of Structural Theories for Low to High **Frequency** Vibration Analyses
HIGHER-ORDER WAVE PARAMETERS OF FLEXURAL BEAM VIBRATION FROM LOW TO HIGH **FREQUENCIES**...Data for: A Method for Selection of Structural Theories for Low to High **Frequency** Vibration Analyses...High **Frequency** Oscillations ... A Method for Selection of Structural Theories for Low to High **Frequency** Vibration Analyses
HIGHER-ORDER WAVE PARAMETERS OF FLEXURAL BEAM VIBRATION FROM LOW TO HIGH **FREQUENCIES**

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Contributors: Patrick Huber, Joachim Kopp, Manfred Lindner, Mark Rolinec, Walter Winter

Date: 2019-12-05

Abstract
GLoBES (General Long Baseline Experiment Simulator) is a flexible software package to simulate neutrino **oscillation** long baseline and reactor experiments. On the one hand, it contains a comprehensive abstract experiment definition language (AEDL), which allows to describe most classes of long baseline experiments at an abstract level. On the other hand, it provides a C-library to process the experiment information in order to obtain **oscillation** probabilities, rate vectors, and Δ χ^2 -values. ...
Title of program: GLoBES version 3.0.8
Catalogue Id: ADZI_v1_0
Nature of problem
Neutrino **oscillations** are now established as the leading flavor transition mechanism for neutrinos. In a long history of many experiments, see, e.g., [1], two **oscillation** **frequencies** have been identified: The fast atmospheric and the slow solar **oscillations**, which are driven by the respective mass squared differences. In addition, there could be interference effects between these two **oscillations**, provided that the coupling given by the small mixing angle θ 13 is large enough. Such interference ...
Versions of this program held in the CPC repository in Mendeley Data
ADZI_v1_0; GLoBES version 3.0.8; 10.1016/j.cpc.2007.05.007
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019) ... Abstract
GLoBES (General Long Baseline Experiment Simulator) is a flexible software package to simulate neutrino **oscillation** long baseline and reactor experiments. On the one hand, it contains a comprehensive abstract experiment definition language (AEDL), which allows to describe most classes of long baseline experiments at an abstract level. On the other hand, it provides a C-library to process the experiment information in order to obtain **oscillation** probabilities, rate vectors, and Δ χ^2 -values. ...
Title of program: GLoBES version 3.0.8
Catalogue Id: ADZI_v1_0
Nature of problem
Neutrino **oscillations** are now established as the leading flavor transition mechanism for neutrinos. In a long history of many experiments, see, e.g., [1], two **oscillation** **frequencies** have been identified: The fast atmospheric and the slow solar **oscillations**, which are driven by the respective mass squared differences. In addition, there could be interference effects between these two **oscillations**, provided that the coupling given by the small mixing angle θ 13 is large enough. Such interference ...
Versions of this program held in the CPC repository in Mendeley Data
ADZI_v1_0; GLoBES version 3.0.8; 10.1016/j.cpc.2007.05.007
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019)

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Contributors: M.J. Miketinac

Date: 2019-12-05

Title of program: TOROID
Catalogue Id: AAAE_v1_0
Nature of problem
This program solves the structure equations determining the equilibrium configurations of a self-gravitating, axisymmetric, perfectly conducting polytrope with the polytropic index n(>=1)in the presence of a toroidal magnetic field. Parameters, such as mass, volume, radius etc. , characterizing an equilibrium configuration are calculated. In addition, **frequencies** of the characteristic modes of **oscillation** are determined using Chandrasekhar's virial tensor method and assuming that the ratio of th ...
Versions of this program held in the CPC repository in Mendeley Data
AAAE_v1_0; TOROID; 10.1016/0010-4655(74)90071-X
AAAE_v2_0; POLOID; 10.1016/0010-4655(76)90025-4
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019) ... Title of program: TOROID
Catalogue Id: AAAE_v1_0
Nature of problem
This program solves the structure equations determining the equilibrium configurations of a self-gravitating, axisymmetric, perfectly conducting polytrope with the polytropic index n(>=1)in the presence of a toroidal magnetic field. Parameters, such as mass, volume, radius etc. , characterizing an equilibrium configuration are calculated. In addition, **frequencies** of the characteristic modes of **oscillation** are determined using Chandrasekhar's virial tensor method and assuming that the ratio of th ...
Versions of this program held in the CPC repository in Mendeley Data
AAAE_v1_0; TOROID; 10.1016/0010-4655(74)90071-X
AAAE_v2_0; POLOID; 10.1016/0010-4655(76)90025-4
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019)

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Contributors: Yipeng WU

Date: 2018-09-22

Data for: A piezoelectric spring pendulum **oscillator** used for multi-directional and ultra-low **frequency** vibration energy harvesting ... Please see the file name or the txt file called "readme".

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Contributors: Łukasz Domagalski, Michał Świątek, Jarosław Jędrysiak

Date: 2019-01-04

The subject of this article is analysis of transverse vibrations of beams which geometric and material properties vary periodically along the longitudinal axis. The aim is to present averaged models that take into account the shear deformation and geometric non-linearity, and to analysand transverse vibrations of such beams in moderately large deflection range. As the theoretical foundations, we use Timoshenko beam theory with von Kármán-type non-linearity. This results in obtaining new differential equations with constant coefficients, some of which explicitly depend on the beam inhomogeneity period size. Then, a reasonably simplified model is proposed to describe the vibrations of the considered beams in the low **frequency** range. The differential equations are transformed into a system of algebraic equations according to the Galerkin method. The response of the beam to transverse harmonic load is investigated by means of a pseudo arc-length continuation scheme. Non-linear coupling between vibration modes and the possibility of superharmonic resonance occurrence are taken into account. As an example of application, few special cases of beam geometry and boundary conditions are examined and compared....Non-Linear **Oscillations** ... The subject of this article is analysis of transverse vibrations of beams which geometric and material properties vary periodically along the longitudinal axis. The aim is to present averaged models that take into account the shear deformation and geometric non-linearity, and to analysand transverse vibrations of such beams in moderately large deflection range. As the theoretical foundations, we use Timoshenko beam theory with von Kármán-type non-linearity. This results in obtaining new differential equations with constant coefficients, some of which explicitly depend on the beam inhomogeneity period size. Then, a reasonably simplified model is proposed to describe the vibrations of the considered beams in the low **frequency** range. The differential equations are transformed into a system of algebraic equations according to the Galerkin method. The response of the beam to transverse harmonic load is investigated by means of a pseudo arc-length continuation scheme. Non-linear coupling between vibration modes and the possibility of superharmonic resonance occurrence are taken into account. As an example of application, few special cases of beam geometry and boundary conditions are examined and compared.

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Contributors: Ozgur R Doruk

Date: 2018-10-29

This data shows the simulation results of backstepping control applied to a pair of synaptically coupled Fitzhugh-Nagumo neurons. Many different scenarios are examined for three different purposes. The purposes are to obtain a controller to track a constant and periodic references and also a specific controller which initiate **oscillations** without the need of an external reference signal. The scenarions involve different controller gains, different reference levels, different **frequencies** and other certain parameters. This data is submitted to accompany a paper to be submitted to Elsevier Communications in Nonlinear Science and Numerical Simulations. ...This data shows the simulation results of backstepping control applied to a pair of synaptically coupled Fitzhugh-Nagumo neurons. Many different scenarios are examined for three different purposes. The purposes are to obtain a controller to track a constant and periodic references and also a specific controller which initiate oscillations without the need of an external reference signal. The scenarions involve different controller gains, different reference levels, different **frequencies** and other certain parameters. This data is submitted to accompany a paper to be submitted to Elsevier Communications in Nonlinear Science and Numerical Simulations. ... This data shows the simulation results of backstepping control applied to a pair of synaptically coupled Fitzhugh-Nagumo neurons. Many different scenarios are examined for three different purposes. The purposes are to obtain a controller to track a constant and periodic references and also a specific controller which initiate **oscillations** without the need of an external reference signal. The scenarions involve different controller gains, different reference levels, different **frequencies** and other certain parameters. This data is submitted to accompany a paper to be submitted to Elsevier Communications in Nonlinear Science and Numerical Simulations.

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