Special Lecture and Reading Course

Subject: 
Physics (PHYS)
Catalog number: 
771
Unit weight: 
0.50
Meet type: 
RDG
Grading basis: 
NUM
Cross-listing(s): 
N/A
Requisites: 
Instructor Consent Required
Description: 
Topic titles: 
1 Quantum Chaos
2 Fourier Optics
3 Low Temperature Device Physics
4 Soft Condensed Matter
5 Biophysics Theory
6 NMR&MRI with Appl in Materials
7 Structure of Complex Fluids
8 Quantum Gravity
9 Low Temperature Device Physics
10 Liquid State NMR and Quantum Information
11 Intro to Quantum Field Theory
12 Solid State NMR
13 NMR & MRI of Porous Media
14 SQUIDS
15 Computational Physics
16 Advanced Magnetization
17 Geometry, Topology and Phys
18 Galaxy Formation
19 Reson Cavities in Atomic Phys
20 Imaging Physics in Medicine
21 Femtosecond Pulses
22 Superstring Theory
23 Numerical Analysis
24 Multifrequency Raman Gen
25 Reson Cavities in Atomic Phys
26 Microscopic Tech Materials Res
27 Quantum Information Processing
28 Interaction of Light (Eye 11)
29 Superconductivity
30 Quantum Field Theory
31 Quantum Optics
32 Advanced NMR
33 Quantum Computing Democritus
34 Advanced Imaging of the Eye
35 Radiation Biology
36 Quantum Optical Communications
37 Introduction to Supersymmetry
38 Light Scttrg in Biolgcl Tissue
39 NMR: Spin Dynamics
40 Physics of Polymers
41 Field-based Statistical Mechanics in Soft Matter
42 Overview of Galaxy Clusters
43 Gradient Refractive Index Optics
44 Alignment Ionizatn & Dissocatn
45 Optical Techniques
46 Membrane Biophysics
47 Photodynamic Therapy
48 Atomic Force Microscopy
49 Introductroy NMR
50 Magnetism & Long Range Ord
51 Chirped Pulse A/F Amplifiers
52 New Imaging Methods in Opth.
53 Models of Nuclear Structure
54 Combination Therapy of Cancer
55 Mnte Carlo Mtds in Stat Phys
56 Phys Biology of the Cell
57 Implmtn of Qtm Info Processing
58 Config Fluid Mem & Vesicles
59 Equilbm Theo Inhomo Polymr
60 Adv Radiation Biology
61 Introduction to Scientific C++
62 Spin Dynamics: Basics of NMR
63 Adv. Quantum Field Theory
64 Topics in Statistical Physics
65 Monte Carlo Sim in Soft Matter
66 FPGAs in Experimental Phys
67 Optical Coherence Tmgrphy
68 Transport in Nanoscales
69 Mechanics of the Cell
70 GR for Cosmology
71 Stat Mech Applications
72 Spin Dynamics
73 Computer Sim of Liquids
74 Ultrafast Lasers & Applcns
75 Concepts in modern atomic physics
76 Slctd Topcs - Cancer Therapies
77 Scatter Ampl & Wilson Loops
78 Eqn State Polymer Phys
79 Polarised Light and the Eye
80 Spin qubits in quantum dots
81 Microwave Engineering
82 Julia Programming
83 Building a Galaxy
84 Majorana Bound States Hybrids
85 Scalable Many-core Computing
86 Quantum Thermodynamics
87 Short pulse lasers
88 Fundamentals of Phonotics
89 Generating Cycle Laser Pulses
90 Holography
91 N=2 Gauge Theories
92 Casual Set Prog QG
93 Block Copolymer SCFT
94 Statistical Field Theory Rdg
95 PSI Stat Phys
96 PSI QFT
97 Quantum Optics 2
98 Quantum Transport
99 Quantum Effects in Biology
100 Advanced Topics in GR
101 Artificial Atoms
102 Liquid Crystal Physics
103 Topics in Gravitational Phys
104 Quenching Circuits for Single Photon Avalanche Pho
105 Topological qubits in Semiconductor/Superconductor
106 Trapped ion quantum information
107 Mathematical Physics Technique
108 Fundamentals of Astrophysics 2
109 Open Spin Qubit Systems and Metrology in Semicondu
110 Quantum Magnetism
111 Ads/CFT Correspondence
112 Monte Carlo Simulations
113 Molecules & Femtosecond Pulses
114 Chromosome biophysics
115 Spin and superconductor based qubit devices
116 The Physics of Glasses and the Glass Transition
117 Statistical Mechanics of Wormlike Chains
118 Neural Networks Deep Learning & their Appls
119 Galaxies
120 Advanced Biophysics and Medical Physics
121 Field theories of many-body physics
122 Quantum Information & Thermody
123 Spin qubits in quantum dots
124 Quantum Optics in Solids
125 Advanced SPAD Design
126 Active Silicon Photonics Design
127 Atoms and Photons
128 Entanglement Properties of QFT
129 Entanglement in QFT & Gravity
130 Resurgence
Faculty: 
Science (SCI)
Academic level: 
GRD
Course ID: 
002227