Difference between revisions of "Graduate Programs"
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PERMISSION OF INSTRUCTOR. || | PERMISSION OF INSTRUCTOR. || | ||
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| − | | | + | |PHYS 5509 || Introductory Nuclear Physics || 3 credits. A course in Nuclear Physics with |
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| − | 3 credits. A course in Nuclear Physics with | ||
emphasis upon structural models, radioactivity, | emphasis upon structural models, radioactivity, | ||
nuclear reactions, fission and fusion. PREREQ: | nuclear reactions, fission and fusion. PREREQ: | ||
KNOWLEDGE OF ELEMENTARY QUANTUM | KNOWLEDGE OF ELEMENTARY QUANTUM | ||
MECHANICS AND DIFFERENTIAL EQUATIONS | MECHANICS AND DIFFERENTIAL EQUATIONS | ||
| − | OR PERMISSION OF INSTRUCTOR. | + | OR PERMISSION OF INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 5510 Science in American Society 2 credits. | + | |PHYS 5510 || Science in American Society || 2 credits. |
Observational basis of science; technology’s | Observational basis of science; technology’s | ||
historical influences on scientific developments; | historical influences on scientific developments; | ||
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tools/strategies for teaching science. Cross-listed | tools/strategies for teaching science. Cross-listed | ||
as GEOL 5510. PREREQ: PERMISSION OF | as GEOL 5510. PREREQ: PERMISSION OF | ||
| − | INSTRUCTOR. | + | INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 5515 Statistical Physics 3 credits. Topics | + | |PHYS 5515 || Statistical Physics || 3 credits. Topics |
covered may include kinetic theory, elementary | covered may include kinetic theory, elementary | ||
statistical mechanics, random motion and the theory | statistical mechanics, random motion and the theory | ||
of noise. Choice of topics will depend upon the | of noise. Choice of topics will depend upon the | ||
interest of the students and instructor. PREREQ: | interest of the students and instructor. PREREQ: | ||
| − | PHYS 2212, MATH 3360. | + | PHYS 2212, MATH 3360.|| |
| − | + | |- | |
| − | PHYS 5516 Radiation Detection and Measurement | + | |PHYS 5516 || Radiation Detection and Measurement || 3 credits. Lecture/laboratory course |
| − | 3 credits. Lecture/laboratory course | ||
emphasizing practical measurement techniques in | emphasizing practical measurement techniques in | ||
nuclear physics. PREREQ: CHEM 1111, CHEM | nuclear physics. PREREQ: CHEM 1111, CHEM | ||
L1111, CHEM1112, CHEML1112, AND EITHER | L1111, CHEM1112, CHEML1112, AND EITHER | ||
(PHYS1111 AND PHYS1113) OR (PHYS2211 | (PHYS1111 AND PHYS1113) OR (PHYS2211 | ||
| − | AND PHYS 2213). | + | AND PHYS 2213). || |
| − | + | |- | |
| − | PHYS 5521-5522 Electricity and Magnetism | + | |PHYS 5521-5522 || Electricity and Magnetism || 3 credits. Intermediate course in fundamental |
| − | 3 credits. Intermediate course in fundamental | ||
principles of electrical and magnetic theory. Free | principles of electrical and magnetic theory. Free | ||
use will be made of vector analysis and differential | use will be made of vector analysis and differential | ||
| − | equations. PHYS 5521 is a PREREQ for 5522. | + | equations. PHYS 5521 is a PREREQ for 5522.PREREQ: PHYS 2212 AND MATH 3360. |
| − | PREREQ: PHYS 2212 AND MATH 3360. | + | |- |
| − | + | |PHYS 5542 || Solid State Physics || 3 credits. Introduction | |
| − | PHYS 5542 Solid State Physics 3 credits. Introduction | ||
to the field of solid state physics emphasizing | to the field of solid state physics emphasizing | ||
the fundamental concepts. Topics usually | the fundamental concepts. Topics usually | ||
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solids, energy bands. PREREQ: PHYS 3301, | solids, energy bands. PREREQ: PHYS 3301, | ||
PHYS 5583, MATH 3360 OR PERMISSION OF | PHYS 5583, MATH 3360 OR PERMISSION OF | ||
| − | INSTRUCTOR. | + | INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 5552 Intermediate Optics 3 credits. Wave | + | | PHYS 5552|| Intermediate Optics || 3 credits. Wave |
theory, e/m waves, production of light, measurement | theory, e/m waves, production of light, measurement | ||
of light, reflection, refraction, interference, | of light, reflection, refraction, interference, | ||
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methods, Jones vectors, Fourier optics, propagation | methods, Jones vectors, Fourier optics, propagation | ||
of e/m waives in materials, atmospheric optics. | of e/m waives in materials, atmospheric optics. | ||
| − | PREREQ: PHYS 2212. COREQ: MATH 3360 | + | PREREQ: PHYS 2212. COREQ: MATH 3360 || |
| − | + | |- | |
| − | PHYS 5553 Topics in Astrophysics 2 credits. | + | |PHYS 5553|| Topics in Astrophysics || 2 credits. |
Applications of physics to astronomy or cosmology. | Applications of physics to astronomy or cosmology. | ||
May include lab exercise. PREREQ: PERMISSION | May include lab exercise. PREREQ: PERMISSION | ||
| − | OF INSTRUCTOR. | + | OF INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 5561-5562 Introduction to Mathematical | + | |PHYS 5561-5562 || Introduction to Mathematical || Physics 3 credits. Introduction to the mathematics |
| − | Physics 3 credits. Introduction to the mathematics | ||
most commonly used in physics with applications to | most commonly used in physics with applications to | ||
and practice in solving physical problems; includes | and practice in solving physical problems; includes | ||
vector analysis, ordinary and partial differential | vector analysis, ordinary and partial differential | ||
equations. PHYS 5561 is a PREREQ for 5562. | equations. PHYS 5561 is a PREREQ for 5562. | ||
| − | PREREQ: PHYS 2212 AND MATH 3360. | + | PREREQ: PHYS 2212 AND MATH 3360.|| |
| − | + | |- | |
| − | PHYS 5583 Theoretical Mechanics 4 credits. | + | | PHYS 5583|| Theoretical Mechanics || 4 credits. |
Detailed study of the motion of particles, satellites, | Detailed study of the motion of particles, satellites, | ||
rigid bodies and oscillating systems. Develop and | rigid bodies and oscillating systems. Develop and | ||
apply Langrangian and Hamiltonian methods. | apply Langrangian and Hamiltonian methods. | ||
| − | PREREQ: PHYS 2212 AND MATH 3360. | + | PREREQ: PHYS 2212 AND MATH 3360.|| |
| − | + | |- | |
| − | PHYS 5592 Colloquium in Physics 1 credit. | + | |PHYS 5592|| Colloquium in Physics || 1 credit. |
Faculty and student lectures in current research | Faculty and student lectures in current research | ||
topics in physics. Open to upper division and | topics in physics. Open to upper division and | ||
graduate students in physics. May be repeated to | graduate students in physics. May be repeated to | ||
| − | a maximum of 4 credits. | + | a maximum of 4 credits. || |
| − | + | |- | |
| − | PHYS 5597 Professional Education Development | + | |PHYS 5597 || Professional Education Development Topics.|| Variable credit. A course for practicing |
| − | Topics. Variable credit. A course for practicing | ||
professionals aimed at the development and improvement | professionals aimed at the development and improvement | ||
of skills. May not be applied to graduate | of skills. May not be applied to graduate | ||
| − | degrees. May be repeated. May be graded S/U. | + | degrees. May be repeated. May be graded S/U.|| |
| − | + | |- | |
| − | + | |PHYS 6602|| Theoretical Methods of Physics || 3 | |
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| − | PHYS 6602 Theoretical Methods of Physics 3 | ||
credits. Calculus of variations, Lagrangian and | credits. Calculus of variations, Lagrangian and | ||
Hamiltonian formalisms of classical mechanics, | Hamiltonian formalisms of classical mechanics, | ||
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variables,vector and tensor analysis, matrix, group | variables,vector and tensor analysis, matrix, group | ||
and operator theory, and numerical methods integrated | and operator theory, and numerical methods integrated | ||
| − | throughout each topic. | + | throughout each topic. || |
| − | + | |- | |
| − | PHYS 6603 Particle Physics 3 credits. Basic | + | |PHYS 6603|| Particle Physics|| 3 credits. Basic |
constituents of the standard model, experimental | constituents of the standard model, experimental | ||
methods, particle interactions: weak, gravitational, | methods, particle interactions: weak, gravitational, | ||
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interactions, physics beyond the standard model. | interactions, physics beyond the standard model. | ||
PREREQ: PHYS 6624 OR PERMISSION OF | PREREQ: PHYS 6624 OR PERMISSION OF | ||
| − | INSTRUCTOR. | + | INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6609 Advanced Nuclear Physics 3 credits. | + | | PHYS 6609|| Advanced Nuclear Physics || 3 credits. |
Nucleon-nucleon interaction, bulk nuclear structure, | Nucleon-nucleon interaction, bulk nuclear structure, | ||
microscopic models of nuclear structure, collective | microscopic models of nuclear structure, collective | ||
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nuclear applications, current topics in nuclear physics. | nuclear applications, current topics in nuclear physics. | ||
PREREQ:PHYS6624 OR PERMISSION OF | PREREQ:PHYS6624 OR PERMISSION OF | ||
| − | INSTRUCTOR. | + | INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6611 Electricity and Magnetism 3 credits. | + | |PHYS 6611 || Electricity and Magnetism||3 credits. |
Maxwell’s equations and methods of solution, plane | Maxwell’s equations and methods of solution, plane | ||
wave propagation and dispersion, wave guides, | wave propagation and dispersion, wave guides, | ||
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relativistic kinematics and dynamics, classical | relativistic kinematics and dynamics, classical | ||
interaction of charged particles with matter, classical | interaction of charged particles with matter, classical | ||
| − | radiation production mechanisms. | + | radiation production mechanisms. || |
| − | + | |- | |
| − | PHYS 6612 Advanced Electricity and Magnetism | + | | PHYS 6612|| Advanced Electricity and Magnetism || 3 credits. Advanced topics in application of |
| − | 3 credits. Advanced topics in application of | ||
Maxwell’s equations to wave guides, antennas and | Maxwell’s equations to wave guides, antennas and | ||
other simple radiating systems. Particular emphasis | other simple radiating systems. Particular emphasis | ||
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radiation production and absorption mechanisms. | radiation production and absorption mechanisms. | ||
PREREQ: PHYS 6611 OR PERMISSION OF | PREREQ: PHYS 6611 OR PERMISSION OF | ||
| − | INSTRUCTOR. | + | INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6615 Activation Analysis 3 credits. | + | | PHYS 6615|| Activation Analysis || 3 credits. |
Theory and use of activation methods | Theory and use of activation methods | ||
for quantitative chemical analysis of natural and | for quantitative chemical analysis of natural and | ||
synthetic materials. Applications will be emphasized. | synthetic materials. Applications will be emphasized. | ||
| − | PREREQ: PERMISSION OF INSTRUCTOR. | + | PREREQ: PERMISSION OF INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6621 Classical Mechanics 3 credits. | + | | PHYS 6621|| Classical Mechanics || 3 credits. |
Lagrange equations, small vibrations; Hamilton’s | Lagrange equations, small vibrations; Hamilton’s | ||
canonical equations; Hamilton’s principal, least | canonical equations; Hamilton’s principal, least | ||
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equation, perturbation theory; nonlinear mechanics. | equation, perturbation theory; nonlinear mechanics. | ||
PREREQ: PHYS5583, PHYS5561-5562, OR | PREREQ: PHYS5583, PHYS5561-5562, OR | ||
| − | PERMISSION OF INSTRUCTOR. | + | PERMISSION OF INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6624-6625 Quantum Mechanics 3 credits. | + | | PHYS 6624-6625|| Quantum Mechanics || 3 credits. |
Schrodinger wave equation, stationary state | Schrodinger wave equation, stationary state | ||
solutions; operators and matrices; perturbation | solutions; operators and matrices; perturbation | ||
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of partial waves. PHYS 6624 is a PREREQ for | of partial waves. PHYS 6624 is a PREREQ for | ||
6625. PREREQ: PHYS 5561-5562, PHYS 6621 | 6625. PREREQ: PHYS 5561-5562, PHYS 6621 | ||
| − | OR PERMISSION OF INSTRUCTOR. | + | OR PERMISSION OF INSTRUCTOR. || |
| − | + | |- | |
| − | PHYS 6626 Advanced Quantum Mechanics | + | | PHYS 6626||Advanced Quantum Mechanics ||3 credits. Elementary quantum field theory and |
| − | 3 credits. Elementary quantum field theory and | ||
practical applications. Emphasis upon non-relativistic | practical applications. Emphasis upon non-relativistic | ||
and relativistic quantum electrodynamics, | and relativistic quantum electrodynamics, | ||
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absorption. PREREQ: PHYS 6625 OR PERMISSION | absorption. PREREQ: PHYS 6625 OR PERMISSION | ||
OF INSTRUCTOR. | OF INSTRUCTOR. | ||
| − | + | || | |
| − | PHYS 6630 Accelerator Physics 3 credits. The | + | |- |
| + | |PHYS 6630 || Accelerator Physics || 3 credits. The | ||
physics of direct voltage accelerators, betatrons, | physics of direct voltage accelerators, betatrons, | ||
sychrotrons, linear induction acceleration; high | sychrotrons, linear induction acceleration; high | ||
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optics, free electron lasers and synchrotron light | optics, free electron lasers and synchrotron light | ||
sources. PREREQ: PHYS 6612, PHYS 6624 OR | sources. PREREQ: PHYS 6612, PHYS 6624 OR | ||
| − | EQUIVALENT. | + | EQUIVALENT. || |
| − | + | |- | |
| − | PHYS 6631 Accelerator Technology 3 credits. | + | | PHYS 6631|| Accelerator Technology || 3 credits. |
Topics will include high voltage and pulsed power | Topics will include high voltage and pulsed power | ||
techniques, waveguide and R.F. structures, ion and | techniques, waveguide and R.F. structures, ion and | ||
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as applied to particle beam machines. PREREQ: | as applied to particle beam machines. PREREQ: | ||
PHYS 6612 OR EQUIVALENT. | PHYS 6612 OR EQUIVALENT. | ||
| − | + | || | |
| − | PHYS 6632 Particle Beam Laboratory 1-3 | + | |- |
| + | |PHYS 6632 || Particle Beam Laboratory || 1-3 | ||
credits. Laboratory projects in particle beam and | credits. Laboratory projects in particle beam and | ||
ion optics, radiation detectors, ion source operation, | ion optics, radiation detectors, ion source operation, | ||
etc. May be repeated up to 3 credits. PREREQ: | etc. May be repeated up to 3 credits. PREREQ: | ||
| − | PERMISSION OF INSTRUCTOR. | + | PERMISSION OF INSTRUCTOR.|| |
| − | + | |- | |
| − | PHYS 6640 Statistical Mechanics 3 credits. | + | | PHYS 6640|| Statistical Mechanics || 3 credits. |
Statistical ensembles; the Maxwell-Boltzmann | Statistical ensembles; the Maxwell-Boltzmann | ||
law; approach to equilibrium, quantum statistical | law; approach to equilibrium, quantum statistical | ||
mechanics; application of statistical mechanics to | mechanics; application of statistical mechanics to | ||
thermodynamic processes. PREREQ: PHYS5515 | thermodynamic processes. PREREQ: PHYS5515 | ||
| − | AND PHYS 6621. | + | AND PHYS 6621. || |
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PHYS 6641 Field Theory, Particles, and Cosmology | PHYS 6641 Field Theory, Particles, and Cosmology | ||
Revision as of 01:50, 19 August 2016
Physics Graduate program information
Graduate Classes:
| Course # | Title | Description | Previous instructors |
| PHYS 5503 - 5504 | Advanced Modern Physics | 3 credits. Study of the elementary principles of
quantum mechanics and an introduction to atomic, solid state, and nuclear physics. Quantum mechanics will be used as much as possible. PHYS 5503 is a PREREQ for 5504. PREREQ: MATH 3360 OR EQUIVALENT, AND PHYS 3301. || | |
| PHYS 5505 | Advanced Laboratory | 2 credits.
Experiments in radiation detection and measurement, nuclear spectroscopy including x-ray and gamma spectroscopies, neutron activation and ion beam methods. Available to Geology, Engineering, and Physics majors. PREREQ: PERMISSION OF INSTRUCTOR. || | |
| PHYS 5509 | Introductory Nuclear Physics | 3 credits. A course in Nuclear Physics with
emphasis upon structural models, radioactivity, nuclear reactions, fission and fusion. PREREQ: KNOWLEDGE OF ELEMENTARY QUANTUM MECHANICS AND DIFFERENTIAL EQUATIONS OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 5510 | Science in American Society | 2 credits.
Observational basis of science; technology’s historical influences on scientific developments; perceptions of science in contemporary America; tools/strategies for teaching science. Cross-listed as GEOL 5510. PREREQ: PERMISSION OF INSTRUCTOR. || | |
| PHYS 5515 | Statistical Physics | 3 credits. Topics
covered may include kinetic theory, elementary statistical mechanics, random motion and the theory of noise. Choice of topics will depend upon the interest of the students and instructor. PREREQ: PHYS 2212, MATH 3360.|| | |
| PHYS 5516 | Radiation Detection and Measurement | 3 credits. Lecture/laboratory course
emphasizing practical measurement techniques in nuclear physics. PREREQ: CHEM 1111, CHEM L1111, CHEM1112, CHEML1112, AND EITHER (PHYS1111 AND PHYS1113) OR (PHYS2211 AND PHYS 2213). || | |
| PHYS 5521-5522 | Electricity and Magnetism | 3 credits. Intermediate course in fundamental
principles of electrical and magnetic theory. Free use will be made of vector analysis and differential equations. PHYS 5521 is a PREREQ for 5522.PREREQ: PHYS 2212 AND MATH 3360. | |
| PHYS 5542 | Solid State Physics | 3 credits. Introduction
to the field of solid state physics emphasizing the fundamental concepts. Topics usually covered are crystal structure, X-ray diffraction, crystal binding energies, free electron theory of solids, energy bands. PREREQ: PHYS 3301, PHYS 5583, MATH 3360 OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 5552 | Intermediate Optics | 3 credits. Wave
theory, e/m waves, production of light, measurement of light, reflection, refraction, interference, diffraction, polarization, optical systems, matrix methods, Jones vectors, Fourier optics, propagation of e/m waives in materials, atmospheric optics. PREREQ: PHYS 2212. COREQ: MATH 3360 || | |
| PHYS 5553 | Topics in Astrophysics | 2 credits.
Applications of physics to astronomy or cosmology. May include lab exercise. PREREQ: PERMISSION OF INSTRUCTOR. || | |
| PHYS 5561-5562 | Introduction to Mathematical | Physics 3 credits. Introduction to the mathematics
most commonly used in physics with applications to and practice in solving physical problems; includes vector analysis, ordinary and partial differential equations. PHYS 5561 is a PREREQ for 5562. PREREQ: PHYS 2212 AND MATH 3360.|| | |
| PHYS 5583 | Theoretical Mechanics | 4 credits.
Detailed study of the motion of particles, satellites, rigid bodies and oscillating systems. Develop and apply Langrangian and Hamiltonian methods. PREREQ: PHYS 2212 AND MATH 3360.|| | |
| PHYS 5592 | Colloquium in Physics | 1 credit.
Faculty and student lectures in current research topics in physics. Open to upper division and graduate students in physics. May be repeated to a maximum of 4 credits. || | |
| PHYS 5597 | Professional Education Development Topics. | Variable credit. A course for practicing
professionals aimed at the development and improvement of skills. May not be applied to graduate degrees. May be repeated. May be graded S/U.|| | |
| PHYS 6602 | Theoretical Methods of Physics | 3
credits. Calculus of variations, Lagrangian and Hamiltonian formalisms of classical mechanics, some classical scattering theory, methods of solving PDEs, Green’s functions, functions of complex variables,vector and tensor analysis, matrix, group and operator theory, and numerical methods integrated throughout each topic. || | |
| PHYS 6603 | Particle Physics | 3 credits. Basic
constituents of the standard model, experimental methods, particle interactions: weak, gravitational, strong and electromagnetic, conservation laws, hadron structure and interactions, unification of interactions, physics beyond the standard model. PREREQ: PHYS 6624 OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 6609 | Advanced Nuclear Physics | 3 credits.
Nucleon-nucleon interaction, bulk nuclear structure, microscopic models of nuclear structure, collective models of nuclear structure, nuclear decays and reactions, electromagnetic interactions, weak interactions, strong interactions, nucleon structure, nuclear applications, current topics in nuclear physics. PREREQ:PHYS6624 OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 6611 | Electricity and Magnetism | 3 credits.
Maxwell’s equations and methods of solution, plane wave propagation and dispersion, wave guides, antennas and other simple radiating systems, relativistic kinematics and dynamics, classical interaction of charged particles with matter, classical radiation production mechanisms. || | |
| PHYS 6612 | Advanced Electricity and Magnetism | 3 credits. Advanced topics in application of
Maxwell’s equations to wave guides, antennas and other simple radiating systems. Particular emphasis upon the relativistic interaction of charged particles with matter, energy loss, and classical radiation production and absorption mechanisms. PREREQ: PHYS 6611 OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 6615 | Activation Analysis | 3 credits.
Theory and use of activation methods for quantitative chemical analysis of natural and synthetic materials. Applications will be emphasized. PREREQ: PERMISSION OF INSTRUCTOR. || | |
| PHYS 6621 | Classical Mechanics | 3 credits.
Lagrange equations, small vibrations; Hamilton’s canonical equations; Hamilton’s principal, least action; contact transformation; Hamilton-Jacobi equation, perturbation theory; nonlinear mechanics. PREREQ: PHYS5583, PHYS5561-5562, OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 6624-6625 | Quantum Mechanics | 3 credits.
Schrodinger wave equation, stationary state solutions; operators and matrices; perturbation theory, non-degenerate and degenerate cases; WKB approximation, non-harmonic oscillator, etc.; collision problems. Born approximation, method of partial waves. PHYS 6624 is a PREREQ for 6625. PREREQ: PHYS 5561-5562, PHYS 6621 OR PERMISSION OF INSTRUCTOR. || | |
| PHYS 6626 | Advanced Quantum Mechanics | 3 credits. Elementary quantum field theory and
practical applications. Emphasis upon non-relativistic and relativistic quantum electrodynamics, radiative processes, bremsstrahlung, pair-production, scattering, photo-electric effect, emission and absorption. PREREQ: PHYS 6625 OR PERMISSION OF INSTRUCTOR. |
|
| PHYS 6630 | Accelerator Physics | 3 credits. The
physics of direct voltage accelerators, betatrons, sychrotrons, linear induction acceleration; high current accelerators; electromagnetic particle optics, free electron lasers and synchrotron light sources. PREREQ: PHYS 6612, PHYS 6624 OR EQUIVALENT. || | |
| PHYS 6631 | Accelerator Technology | 3 credits.
Topics will include high voltage and pulsed power techniques, waveguide and R.F. structures, ion and electron beam sources and beam measurements as applied to particle beam machines. PREREQ: PHYS 6612 OR EQUIVALENT. |
|
| PHYS 6632 | Particle Beam Laboratory | 1-3
credits. Laboratory projects in particle beam and ion optics, radiation detectors, ion source operation, etc. May be repeated up to 3 credits. PREREQ: PERMISSION OF INSTRUCTOR.|| | |
| PHYS 6640 | Statistical Mechanics | 3 credits.
Statistical ensembles; the Maxwell-Boltzmann law; approach to equilibrium, quantum statistical mechanics; application of statistical mechanics to thermodynamic processes. PREREQ: PHYS5515 AND PHYS 6621. || | |
PHYS 6641 Field Theory, Particles, and Cosmology I 3 credits. Topics may include Dirac theory, group theory, Feynman diagrams, superstrings, supergravity, relativity and cosmology. PREREQ: PERMISSION OF INSTRUCTOR.
PHYS 6642 Field Theory, Particles, and Cosmology II 3 credits. A continuation of 641. Topics may include Dirac theory, group theory, Feynman diagrams, superstrings, super gravity, relativity and cosmology. PREREQ: PERMISSION OF INSTRUCTOR.
PHYS 6643 Advanced Solid State Physics 3 credits. Electron many-body problem, crystal and reciprocal lattice, Bloch functions, pseudo potentials, semi-conductors, transition metals, crystal momentum and coordinate representations, electric and magnetic fields, impurities and defects in crystals and semi-conductors, radiation effects on solids, lattice vibrations, electron transport. PREREQ: PHYS 6624 OR PERMISSION OF INSTRUCTOR.
PHYS 6648 Special Topics in Physics 1-3 credits. Survey, seminar, or project (usually at an advanced
level) in one area of physics. Content varies depending
upon the desires of the students and faculty. May be repeated until 6 credits are earned. PREREQ: PERMISSION OF INSTRUCTOR.
PHYS 6649 Graduate Seminar 2 credits. Advanced seminar topics in currently active areas of applied physics. Students will be required to make presentations and will be required to submit a paper. Four credits required. May be repeated.
PHYS 6650 Thesis 1-10 credits. Maybe repeated. Graded S/U .
PHYS 6699 1-6 Credits. This is an experimental course. The course title and number of credits are noted by course section and announced in the class schedule by the scheduling department. Experimental courses may be offered no more than three times. May be repeated.
PHYS 8850 Doctoral Dissertation Variable
credit. Research toward and completion of the
dissertation. May be repeated. Graded S/U.