On U(1) Gauge Theory Transfer-Matrix in Fourier Basis

This paper presents a technique by which the transfer matrix in explicit form of an orthotropic layer can be easily obtained. This transfer matrix is applicable for both the wave propagation problem and the reflection/transmission problem. The obtained transfer matrix is then employed to derive the explicit secular equation of Rayleigh waves propagating in an orthotropic half-space coated by an orthotropic layer of arbitrary thickness.

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Proper, Stable Transfer Matrix Factorizations and Internal System Descriptions

10.23919/acc.1986.4789011 ◽

1986 ◽

Author(s):

P. J. Antsaklis

Keyword(s):

Transfer Matrix ◽

Matrix Factorizations ◽

Internal System

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Lattice gauge theory

Physics Subject Headings (PhySH) ◽

10.29172/612f281837e64798ac55d67bb4053702 ◽

2018 ◽

Keyword(s):

Gauge Theory ◽

Lattice Gauge Theory ◽

Lattice Gauge

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Effect of leakage and blockage on the acoustic behavior of particle filters

Noise Control Engineering Journal ◽

10.3397/1/376744 ◽

2019 ◽

Vol 67 (6) ◽

pp. 483-492

Author(s):

Seonghyeon Baek ◽

Iljae Lee

Keyword(s):

Transfer Matrix ◽

Particle Filters ◽

Acoustic Analysis ◽

Transmission Loss ◽

One Dimensional ◽

Filter System ◽

The Difference ◽

The One ◽

Analytical Approaches ◽

Good Agreement

The effects of leakage and blockage on the acoustic performance of particle filters have been examined by using one-dimensional acoustic analysis and experimental methods. First, the transfer matrix of a filter system connected to inlet and outlet pipes with conical sections is measured using a two-load method. Then, the transfer matrix of a particle filter only is extracted from the experiments by applying inverse matrices of the conical sections. In the analytical approaches, the one-dimensional acoustic model for the leakage between the filter and the housing is developed. The predicted transmission loss shows a good agreement with the experimental results. Compared to the baseline, the leakage between the filter and housing increases transmission loss at a certain frequency and its harmonics. In addition, the transmission loss for the system with a partially blocked filter is measured. The blockage of the filter also increases the transmission loss at higher frequencies. For the simplicity of experiments to identify the leakage and blockage, the reflection coefficients at the inlet of the filter system have been measured using two different downstream conditions: open pipe and highly absorptive terminations. The experiments show that with highly absorptive terminations, it is easier to see the difference between the baseline and the defects.

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Comparisons of regularization methods and regularization parameter selection methods in sound source identification using inverse boundary element method

Noise Control Engineering Journal ◽

10.3397/1/376720 ◽

2019 ◽

Vol 67 (3) ◽

pp. 219-227

Author(s):

Youhong Xiao ◽

Qingqing Song ◽

Shaowei Li ◽

Guoxue Lv ◽

Zhenlin Ji

Keyword(s):

Boundary Element Method ◽

Boundary Element ◽

Transfer Matrix ◽

Sound Source ◽

Source Identification ◽

Regularization Parameter ◽

Vibration Velocity ◽

Regularization Methods ◽

Inverse Boundary ◽

Element Method

In noise source identification based on the inverse boundary element method (IBEM), the boundary vibration velocity is predicted based on the field pressure through a transfer matrix of the vibration velocity and field pressure established on the Helmholtz integral equation. Because the matrix is often ill-posed, it needs to be regularized before reconstructing the vibration velocity. Two regularization methods and two methods of selecting the regularization parameter are investigated through the simulation analysis of a pulsating sphere. The result of transfer matrix regularization is further verified through the reconstruction of the vibration of an aluminum plate. Additionally, to reduce the large errors at some frequencies in the reconstruction result, increasing the number of measuring points is more effective than reducing the distance between the measurement plane and the sound source.

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Rho and A-mesons in external magnetic field in SU(2) lattice gauge theory

10.22323/1.205.0162 ◽

2014 ◽

Author(s):

Olga Larina ◽

Elena Luschevskaya

Keyword(s):

Magnetic Field ◽

Gauge Theory ◽

External Magnetic Field ◽

Lattice Gauge Theory ◽

Lattice Gauge

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The Standard Theory

10.1093/oso/9780198805175.003.0006 ◽

2017 ◽

Author(s):

John Iliopoulos

Keyword(s):

Gauge Theory ◽

Invariant Theory ◽

Standard Theory ◽

Strong Interactions ◽

Gauge Invariant ◽

Electromagnetic Interactions ◽

Protons And Neutrons ◽

Free Particles ◽

Theoretical Predictions ◽

Theory And Experiment

All ingredients of the previous chapters are combined in order to build a gauge invariant theory of the interactions among the elementary particles. We start with a unified model of the weak and the electromagnetic interactions. The gauge symmetry is spontaneously broken through the BEH mechanism and we identify the resulting BEH boson. Then we describe the theory known as quantum chromodynamics (QCD), a gauge theory of the strong interactions. We present the property of confinement which explains why the quarks and the gluons cannot be extracted out of the protons and neutrons to form free particles. The last section contains a comparison of the theoretical predictions based on this theory with the experimental results. The agreement between theory and experiment is spectacular.

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