PHYS 401-1
William Renninger
TR 11:05AM - 12:20PM
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Study of mathematical techniques such as contour integration, transform theory, Fourier transforms, asymptotic expansions, and Green's functions, as applied to differential, difference, and integral equations. (Prior Titles: Complex Analysis and Diff Equations & Mathematical Methods of Theoretical Optics). (Cross-listed with OPT411).
- Location
- Goergen Hall Room 108 (TR 11:05AM - 12:20PM)
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PHYS 401-2
F 11:05AM - 12:20PM
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Study of mathematical techniques such as contour integration, transform theory, Fourier transforms, asymptotic expansions, and Green's functions, as applied to differential, difference, and integral equations. (Prior Titles: Complex Analysis and Diff Equations & Mathematical Methods of Theoretical Optics). (Cross-listed with OPT411).
- Location
- Wilmot Room 116 (F 11:05AM - 12:20PM)
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PHYS 407-01
Gabriel Teixeira Landi
MW 12:30PM - 1:45PM
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The Physical Basis of Quantum Mechanics. The Schrdinger Wave Equation. Discrete Eigenvalues: Bound States. Matrix Formulation of Quantum Mechanics. Angular momentum and spin. Approximation Methods for Bound States. Radiation Physics.
- Location
- Gavett Hall Room 312 (MW 12:30PM - 1:45PM)
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PHYS 415-01
Stephen Teitel
MW 10:25AM - 11:40AM
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An advanced treatment of electromagnetic phenomena. Electromagnetic wave propagation, radiation, and waveguides and resonant cavities, diffraction, electrodynamic potentials, multipole expansions, and covariant electrodynamics.
- Location
- Bausch & Lomb Room 269 (MW 10:25AM - 11:40AM)
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PHYS 434-01
Svetlana Lukishova
W 8:00AM - 9:15AM
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NOTE: the schedule for this course will be set by the instructor after polling ALL registered students for availabilityÌý(One 1 hour per week lectures and ONE 1.5 hours per weekÌý lab) This ADVANCED laboratory course is based both on quantum information and new advances in nanotechnology.Ìý As much as wireless communication has impacted daily life already, the abstract theory of quantum mechanics promises solutions to a series of problems with similar impact on the twenty-first century. Students will experimentally learn cutting-edge photon counting instrumentation and methods with applications ranging from quantum information to nanotechnology, biotechnology and medicine.Ìý Major lab topics include quantum entanglement and Bells inequalities, single-photon interference, single-emitter confocal fluorescence microscopy and spectroscopy, photonic bandgap materials, Hanbury Brown and Twiss interferometer/photon antibunching. Photonic based quantum computing and quantum cryptography will be outlined in the course materials as possible applications of these concepts and tools. Other important quantum and nano-optics experiments and methods [for instance, Hong-Ou-Mandel interferometer and its applications as well as super-resolution optical fluorescent microscopies (nanoscopy)] will be discussed on the lectures.ÌýALL students assignments are individual. For grading students should submit an essay, deliver a 20-mins talk about all labsÌý with submission of their PowerPoint slides, 3 lab reports, maintain their lab journals and pass through MidTerm and Final (Big) Quizzes.
- Location
- Wilmot Room 504 (W 8:00AM - 9:15AM)
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PHYS 437-1
Robert Boyd
T 2:00PM - 4:40PM
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Fundamentals and applications of optical systems based on the nonlinear interaction of light with matter. Topics to be treated include mechanisms of optical nonlinearity, second-harmonic and sum and difference-frequency generation, photonics and optical logic, optical self-action effects including self-focusing and optical soliton formatin, optical phase conjugation, stimulated Brillouin and stimulated Raman scattering, and selection criteria of nonlinear optical materials., (Cross-listed OPT 467).
- Location
- Lechase Room 160 (T 2:00PM - 4:40PM)
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PHYS 440-1
Aran Garcia-Bellido
MW 2:00PM - 3:15PM
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This course is designed for physics majors interested in the development of nuclear and particle physics. The course describes the properties of nuclei and various models useful for the description of nuclear properties. The models and ideas include the liquid drop model, shell model, collective model, radioactivity, fission, and fusion. Properties of particle interactions with matter are covered, and used to develop principles of detections used in nuclear and particle experiments. The physical ideas behind various existing accelerators are discussed. Finally, the fundamental interactions of elementary particles and their constituents are reviewed, with emphasis on issues pertaining to the conservation of quantum numbers and symmetries observed in the high-energy collisions. (Cross-listed with PHY 254).
- Location
- Morey Room 525 (MW 2:00PM - 3:15PM)
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PHYS 453-01
Gilbert Collins; Ryan Rygg
TR 2:00PM - 3:15PM
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This course will survey the field of high-energy-density science (HEDS), extending from ultra-dense matter to the radiation-dominated regime. Topics include: experimental and computational methods for the productions, manipulation, and diagnosis of HED matter, thermodynamic equations-of-state; dynamic transitions between equilibrium phases; and radiative and other transport properties. Throughout the course, we will make connections with key HEDS applications in astrophysics, laboratory fusion, and new quantum states of matter.
- Location
- Goergen Hall Room 109 (TR 2:00PM - 3:15PM)
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PHYS 454-1
Chuang Ren
TR 3:25PM - 4:40PM
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Orbit theory, adiabatic invariants, collective effects, two-fluid and MHD equations, waves in plasma, transport across magnetic fields and in velocity space. (same as ME 434). (Course was listed as PHY 426).
- Location
- Hylan Building Room 102 (TR 3:25PM - 4:40PM)
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PHYS 457-2
Ibrahim Mohammad
MW 3:25PM - 4:40PM
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The study of incompressible flow covers fluid motions which are gentle enough that the density of the fluid changes little or none. Topics: Conservation equations. Bernoullis equation, the Navier-Stokes equations. Inviscid flows; vorticity; potential flows; stream functions; complex potentials. Viscosity and Reynolds number; some exact solutions with viscosity; boundary layers; low Reynolds number flows. Waves.
- Location
- Meliora Room 219 (MW 3:25PM - 4:40PM)
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PHYS 498-01
Steven Manly
7:00PM - 7:00PM
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This course is designed for a student to be Laboratory or Recitation Teaching Assistant (TA). Typically, the student spends the semester teaching two laboratories or up to four recitations during the Fall semester for the introductory physics courses: PHY 113, PHY 122, PHY 141, PHY 142, or introductory astronomy course: AST 111, or teaching one or more recitation(s): AST 111, PHY 113, PHY 122, PHY 141, PHY 142, or a 200 level undergraduate physics or astronomy course. Attendance of the weekly teaching seminars PHY 597-Fall, giving feedback to other leaders, and a constructive evaluation process are required. This course is non-credit and may be taken more than once.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 499-01
7:00PM - 7:00PM
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Continuation of PHY 498.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 521-01
John Nichol
TR 11:00AM - 12:15PM
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This course covers the fundamentals of solid state physics, and it answers the question of why solids behave differently than individual atoms. Topics covered include: the free-electron model of solids, crystal structure, x-ray diffraction, Bloch's Theorem, band structure, the tight-binding model, crystal vibrations, phonons, magnetism, and superconductivity.
- Location
- Bausch & Lomb Room 208 (TR 11:00AM - 12:15PM)
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PHYS 525-01
Gourab Ghoshal
TR 9:40AM - 10:55AM
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As the number of interacting degrees of freedom (or agents) in a given system increases, its behavior often changes qualitatively, and not only quantitatively. Complexity is the emerging field of research, which investigates the shared underlying concepts and principles of such systems. It finds its applications in Physics, Computer Science, Mathematics, Biology, Social Sciences, Economy, and more.sIn this introductory course we will focus on these common features and their utilization in understanding complex systems. They will include for example: Fractals, non-linearity and chaos, adaptation and evolution, critical and tipping points, patterns formation, networks modeling, feedback loops, emergence and unpredictability, etc.sStudents in the course will be given ample opportunities to study farther these systems and/or techniques that are of particular interest to them.Prerequisites include basic knowledge in differential equations, linear algebra, and probability.
- Location
- Bausch & Lomb Room 407 (TR 9:40AM - 10:55AM)
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PHYS 527-01
Ralf Haefner
TR 12:30PM - 1:45PM
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Computational neuroscience studies how the brain can be understood in terms of computations implemented by neural circuits, and in terms of using computational methods to analyze neural and behavioral data. This course for advanced undergraduates and graduate students starts with models of individuals neurons before moving on to networks of neurons and behavior. It provides both a classic signal processing, and a probabilistic perspective on how neurons support the brain’s computations. While primarily lecture-based, an important part of the course are exercises that typically consist on implementing (programming) a model discussed in the class and analyze its behavior. The course also provides the opportunity for a final project but this is not required. The material mostly considers the sensory system and perceptual decision-making. There are no formal prerequisites. However, programming experience and a minimal background in linear algebra (vectors and matrices) and analysis (basic ordinary differential equations) are essential. At the beginning, there will be a very brief introduction to the key biological concepts necessary for the course. In doubt, please email the instructor.
- Location
- Dewey Room 2110D (TR 12:30PM - 1:45PM)
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PHYS 531-01
Joseph Eberly
TR 2:00PM - 3:15PM
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Classical and quantum mechanical theories of the interaction of light with atoms and molecules, with emphasis on near resonance effects, including coherent nonlinear atomic response theory, relaxation and saturation, laser theory, optical pulse propagation, dressed atom-radiation states, and multi-photon processes. (same as OPT 551).
- Location
- Bausch & Lomb Room 269 (TR 2:00PM - 3:15PM)
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PHYS 582-01
Kevin McFarland-Porter
MW 9:00AM - 10:15AM
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Electroweak theory, and experimental evidence in support of it. Gauge theories and spontaneous symmetry breaking. QCD and color SU(3). Grand unification and recent advances. Particles and cosmology.
- Location
- Bausch & Lomb Room 480 (MW 9:00AM - 10:15AM)
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PHYS 591-02
John Nichol
7:00PM - 7:00PM
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Special study or work, arranged individually.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 591-1
Alice Quillen
7:00PM - 7:00PM
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Special study or work, arranged individually.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 594-03
Frank Wolfs
7:00PM - 7:00PM
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No description
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- ( 7:00PM - 7:00PM)
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PHYS 595-01
Segev BenZvi
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595-02
Nicholas Bigelow
7:00PM - 7:00PM
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PhD Research in Physics
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- ( 7:00PM - 7:00PM)
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PHYS 595-03
Machiel Blok
7:00PM - 7:00PM
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PhD Research in Physics
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- ( 7:00PM - 7:00PM)
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PHYS 595-04
Hans Rinderknecht
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595-05
Regina Demina
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-06
Joseph Eberly
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-07
Dustin Froula
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595-08
Jaime Cardenas
7:00PM - 7:00PM
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PhD Research in Physics
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- ( 7:00PM - 7:00PM)
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PHYS 595-09
Aran Garcia-Bellido
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595-10
Gourab Ghoshal
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-11
Pierre Gourdain
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-12
Chunlei Guo
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-14
Kevin McFarland-Porter
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-15
John Nichol
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-16
Jess Shaw
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-17
Frank Wolfs
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-18
Gilbert Collins
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-19
Riccardo Betti
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-20
Robert Boyd
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-21
Petros Tzeferacos
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-22
Ryan Rygg
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-23
Suxing Hu
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-24
William Renninger
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-25
Eric Blackman
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-26
Varchas Gopalaswamy
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-27
Adam Sefkow
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-28
Nick Vamivakas
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-29
Dominique Segura-Cox
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-30
Jianhui Zhong
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-31
Steven Manly
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-32
Christopher Marshall
7:00PM - 7:00PM
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PhD Research
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- ( 7:00PM - 7:00PM)
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PHYS 595-33
Anne Meyer
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595-34
Alice Quillen
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-35
Krishnan Padmanabhan
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-36
Pengfei Huo
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-37
Andrew Jordan
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-38
Timothy Baran
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-39
David Mathews
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-40
Gabriel Teixeira Landi
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595-41
Antonino Di Piazza
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595A-01
Andrew Jordan
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595A-02
Dan Bergstralh
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595A-03
Christopher Marshall
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595A-04
Aran Garcia-Bellido
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595A-05
Steven Manly
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595A-06
Gourab Ghoshal
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595A-07
Kevin McFarland-Porter
7:00PM - 7:00PM
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No description
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- ( 7:00PM - 7:00PM)
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PHYS 595B-01
Aran Garcia-Bellido
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 595B-02
Regina Demina
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595B-03
David Mathews
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 595B-04
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 597-01
Steven Manly; Aran Garcia-Bellido
F 9:00AM - 10:15AM
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A (Fall) - Noncredit course given once per week, required of all first-year graduate students. The seminar consists of lectures and discussions on various aspects of being an effective teaching assistant, including interactions with undergraduate student body and cross-cultural issues.B (Spring) - Noncredit course given once per week required of all first-year graduate students. Members of the faculty discuss topics in their curent area of research interest.
- Location
- Bausch & Lomb Room 109 (F 9:00AM - 10:15AM)
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PHYS 598-1
7:00PM - 7:00PM
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This course is designed for a student to be a Workshop Leader Teaching Assistant (TA). Typically, the TA attends the weekly Workshop Leader Training meeting that offers specialized support and training in group dynamics, learning theory, and science pedagogy for students facilitating collaborative learning groups for science and social science courses. The TA teaches three to four workshops in one of the fall semester introductory physics courses: PHY 113, PHY 122, PHY 141 or PHY 142. Additional requirements are: Attendance of the weekly Graduate Teaching Seminars PHY 597-Fall, giving feedback to other leaders and a constructive evaluation process. This course is non-credit and may be taken more than once.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 599-1
7:00PM - 7:00PM
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This course is designed as a follow-up course for an experienced Workshop Leader, titled a lead Workshop Leader Teaching Assistant (TA). Typically, the TA attends the weekly Workshop Leader Training meeting that offers specialized support and training to develop leadership skills, to foster ongoing communication among faculty members and study group leaders, and to provide an environment for review of study group related issues. Students spend the semester teaching three to four workshops during the Spring semester introductory physics courses.
- Location
- ( 7:00PM - 7:00PM)
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PHYS 895-1
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 986V-01
Gabriel Teixeira Landi
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 995-1
7:00PM - 7:00PM
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- ( 7:00PM - 7:00PM)
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PHYS 997-01
Segev BenZvi
7:00PM - 7:00PM
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Blank Description
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- ( 7:00PM - 7:00PM)
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PHYS 999-01
Segev BenZvi
7:00PM - 7:00PM
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[
- Location
- ( 7:00PM - 7:00PM)
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