Courses

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The tables below list Physics graduate courses (PHY 500 and above) offered since Fall 2023, split by the semester each course is traditionally taught in. A handful of courses – mostly labs and seminars – run every semester and appear in both tables.

  • For short descriptions of the courses offered by the Department, refer to the Graduate Bulletin.
  • For course instructors and times, the physics department maintains the following Schedule. You can also follow link from the Registrar’s class listings, or search on SOLAR (note: Select the correct semester. We are on “West Campus”).

If you would like to know the course content in advance, please consult the webpages of earlier years or send an email to the instructor. The learning goals of all graduate courses can be found here.

Fall Offerings

The Offered column gives the day/time for courses being taught in Fall 2026, and is blank for courses not running this semester.

Course (Credits) Offered Fall 2026 Fall 2025 Fall 2024
PHY 501, Classical Mechanics (3) MW 9:30-10:50 Abanov Goldbart Goldbart
PHY 503, Mathematical Physics (3) MW 11:00-12:20 Syritsyn Syritsyn Syritsin
PHY 503: Math-Phys Optional Supplement (0) W 12:30-1:50 Abanov, Goldbart, Syritsyn, Teaney Abanov, Goldbart, Syritsyn, Teaney  
PHY 511, Quantum Mechanics I (3) TR 11:00-12:20 Averin Abanov Abanov
PHY 514, Research Instruments (3) TR 12:30-1:50 Metcalf Metcalf Weinacht
PHY 515, Methods of Experimental Research (3) MW 2:00-4:50; TR 12:30-3:20 Dao, Liu, Kumar, Drees, Du Arnold, Liu, Kumar, Corliss, Drees Arnold, Bernauer, Figueroa, Du
PHY 517, Astronomical Techniques (3) MW 3:30-6:20 Birrer von der Linden Birrer
PHY 521, Stars (3)     Zingale  
PHY 523, Galaxies (3)       von der Linden
PHY 540, Statistical Mechanics (3) TR 9:30-10:50 Shrock Allison Allison
PHY 554, Fundamentals of Accelerator Physics (1-3) MW 6:30-7:50 Jing Litvinenko Jing
PHY 555, Solid State I (3) MW 9:30-10:50 Goldbart Fernandez-Serra Fernandez-Serra
PHY 558, Physical Biology (3) MWF 11:00-11:55 Balazsi Balaszi Balaszi
PHY 560, Frontiers of Physics and Astrophysics (0-3) MW 11:00-12:20 Barish   Barish
PHY 562, Lasers and Modern Optics (1-3) TR 11:00-12:20 Weinacht Weinacht Metcalf
PHY 564, Advanced Accelerator Physics (1-3)       Litvinenko
PHY 568, Quantum Information Science MW 2:00-3:20 Tantivasadakarn, Wei Wei Wei
PHY 582, Optics Rotation (2) TR 8:00-9:20 Metcalf Metcalf Metcalf
PHY 584, Lab Rotations in Physical Biology (3) By arrangement Dill Dill Dill
PHY 598, Graduate Seminar I (Atomic and Solid State) (1) M 5:00-6:20 Du, Goldbart, Metcalf Blackwell, Metcalf, Dreyer Blackwell, Perez Rios, Dreyer
PHY 599, Graduate Seminar II (Nuclear, Particle, Astronomy) (1) R 3:30-4:50 Corliss, Piacquadio, Miranda Kharzeev, Walter, Xin-Qian Bernauer, Walter, Qian
PHY 604, Computational Methods II (3)     Dreyer  
PHY 611, Quantum Field Theory II (3) MW 2:00-3:20 Meade Meade Meade
PHY 612, Theoretical Particle Physics (1-3) TR 2:00-3:20 Essig Sterman Essig
PHY 620, Modern General Relativity (3) MW 11:00-12:20 Sehgal    
PHY 622, 623, String Theory I, II (1-3) MW 9:30-10:50 Rocek, van Nieuwenhuizen Rocek, van Nieuwenhuizen van Nieuwenhuizen, Rocek, Shao
PHY 655, Advanced Graduate Seminar (1) F 2:00-4:50 Rocek Rocek  
PHY 665 / AMS 532, Journal Club in Computational Biology (1) W 11:00-11:55 Rizzo    
PHY 670, Theoretical Physics Seminar (0-1) R 3:30-6:20 TBA    
PHY 672, Elementary Particles Seminar (0-1) M 12:30-1:50 TBA    
PHY 674, Nuclear Physics Seminar (0-1) R 3:30-4:50 TBA    
PHY 676, Solid State Physics Seminar (0-1) F 2:00-4:50 TBA    
PHY 678, AMO Seminar (0-1) M 3:30-4:50 TBA    
PHY 680, Topics in Theoretical Physics-Group Theory (1-3)     Group Theory, van Nieuwenhuizen  
PHY 680, Topics in Theoretical Physics-Non-Perturbative Advanced QFT (1-3) TR 11:00-12:20 Rastelli Rastelli Rastelli
PHY 680, Quantum Hall and Chern Simons Theory, Yin Chen (1-3)     Yin Chen  
PHY 680, Supersym and Supergravity, van Nieuwenhuizen (1-3)       van Nieuwenhuizen
PHY 688, Topics in Astrophysics (1-3)       Dark Universe, Sehgal
PHY 689, Topics in Accelerator Physics (1-3) R 6:30-9:20 Kayran   Litvinenko
PHY 693, High Power RF Engineering TR 3:30-4:50 Parekh   Parekh
PHY 695, Cryogenic Systems     Litvinenko, Klebaner  
PHY 698, Colloquium (0-1) T 3:30-6:20 TBA    

Spring Offerings

Spring 2027 is tentative and instructors are still being finalized for many courses; the remaining columns are a historical record to help gauge what’s likely to run.

Course (Credits) Spring 2027 Spring 2026 Spring 2025 Spring 2024
PHY 504, Computational Methods and High Performance Computing (3) Calder Miranda Miranda Zingale
PHY 505, Classical Electrodynamics (3) TBA Goldbart Goldbart Goldbart
PHY 505, Classical Electrodynamics, Recitation TBA Goldbart, Teaney   Goldbart
PHY 512, Quantum Mechanics II (3) TBA Abanov Abanov Zahed
PHY 515, Methods of Experimental Research (3) TBA Dao, Drees, Du, Liu, Kumar Arnold, Bernauer, Corliss, Du, Kumar Du, Liu, Wijesekara, Arnold
PHY 517, Astronomical Techniques (3) von der Linden Birrer von der Linden Birrer
PHY 522, Interstellar medium (3) Armitage   Armitage  
PHY 524, Cosmology (3)   Sehgal   Sehgal
PHY 541, Advanced Statistical Mechanics (1-3) TBA Shrock Shrock Shrock
PHY 542, Accelerator Physics Lab (1-2) TBA Fedurin, Kayran Fedurin, Kayran Fedurin, Kayran
PHY 543, RF Superconductivity (3) TBA   Belomestnykh  
PHY 546, Python (1) Zingale Zingale Zingale Zingale
PHY 551, Nuclear Physics I (3) TBA Kharzeev Kharzeev Kharzeev
PHY 556, Solid State Physics II (1-3)   Fernandez-Serra Fernandez-Serra  
PHY 557, Elementary Particle Physics (3) TBA Piacquadio Gonzalez Garcia Gonzalez Garcia
PHY 559, Biological Dynamics and Networks (3) Green Green Green MacCarthy
PHY 561, Biology for Physical Scientist (1) TBA   Futcher, Green Futcher, Green
PHY 564, Advanced Accelerator Physics (1-3)   Litvinenko    
PHY 565, Quantum Electronics I (3)       Schneble
PHY 566, Quantum Electronics II (1-3) TBA Weinacht    
PHY 567, Theoretical Chemical Physics (3) TBA Levine Levine Levine
PHY 582, Optics Rotation (2) TBA Metcalf Weinacht  
PHY 584, Lab Rotations in Physical Biology (3) Dill Dill Dill Dill
PHY 598, Graduate Seminar I (Atomic and Solid State) (1) TBA Blackwell, Metcalf, Dreyer Blackwell, Metcalf, Dreyer Li, Vafei-Najafabadi, Metcalf
PHY 599, Graduate Seminar II (Nuclear, Particle, Astronomy) (1) TBA Miranda, Syritsyn, Hobbs Hobbs, Syritsyn, Walter Bernauer, Worcester, Lanzetta
PHY 605, Quantum Programming (1-3) TBA Wei and Tantivasadakarn Wei Wei
PHY 610, Quantum Field Theory I (3) TBA Zamolodchikov Zamolodchikov Zamolodchikov
PHY 613, Advanced Particle Theory (1-3) TBA Essig, Shrock, Sterman, Meade Essig, Shrock, Sterman, Meade Essig, Shrock, Sterman, Meade
PHY 620, Modern General Relativity (3)     Sehgal  
PHY 622, 623, String Theory I, II (1-3) TBA Rocek Rocek, Saxena van Nieuwenhuizen, Rocek, Shao
PHY 631, Quantum Information Systems TBA Li Li Li
PHY 655, Advanced Graduate Seminar (1) TBA Rocek Rocek Rocek
PHY 664, Astronomy Journal Club (0-1) TBA      
PHY 670, Theoretical Physics Seminar (0-1) TBA Meade, Wei, Essig Meade  
PHY 672, Elementary Particles Seminar (0-1) TBA Dao, Worcester McGrew  
PHY 673, Seminar in Cosmology (0-1) TBA Sehgal    
PHY 674, Nuclear Physics Seminar (0-1) TBA   Teaney  
PHY 676, Solid State Physics Seminar (0-1) TBA Cano    
PHY 678, AMO Seminar (0-1) TBA Schneble    
PHY 680, Topology in Many-Body/QFT, Komargodski (1-3) TBA Komargodski    
PHY 688, Topics in Astrophysics (1-3) Dark Universe, Sehgal   Gravitational Lensing, Birrer Astrophysical Fluids and Plasma, Armitage
PHY 689, Topics in Accelerator Physics (1-3) TBA Litvinenko Litvinenko Litvinenko
PHY 691, Computational Accelerator Physics       Meot
PHY 694, Plasma and Wakefield Accelerators   Vafaei-Najafabadi   Vafaei-Najafabadi
PHY 698, Colloquium (0-1) Essig   Essig  

Astronomy Core Course Sequence

The four core astronomy courses – Stars (PHY 521), Interstellar Medium (PHY 522), Galaxies (PHY 523), and Cosmology (PHY 524) – rotate on a four-semester cycle, one course per semester, so each is offered only once every two years. Because the tables above only show recent offerings, an individual course may not appear in them in a given year even though it remains part of the regular rotation.

Students completing the Astronomy Concentration satisfy their breadth requirement by taking three of these four courses plus Modern General Relativity (PHY 620) – that is, any three of the five. Unlike the other four, PHY 620 is offered every year rather than rotating on the two-year cycle. Astronomy students are strongly encouraged to take each core course when it comes up rather than postponing it, since missing an offering means waiting a full two-year cycle for it to come back around.