Prof. Dr. Chartchalerm Isarankura-Na-Ayudhya
Dean of Faculty of Graduate Studies
Level | Doctoral |
Faculty / Institute | FACULTY OF SCIENCE |
Website |
http://www.sc.mahidol.ac.th |
DOCTOR OF PHILOSOPHY(PHYSICS)
Plan 2.1 For students with Master's Degree | |||
Required Courses | 6 | Credits | |
Elective Courses not less than | 6 | Credits | |
Dissertation | 36 | Credits | |
Total not less than | 48 | Credits | |
Plan 2.2 For students with Bachelor's Degree | |||
Required Courses | 21 | Credits | |
Elective Courses not less than | 3 | Credits | |
Dissertation | 48 | Credits | |
Total not less than | 72 | Credits |
Required Courses | Credit | ||
For students with Bachelor's degree | |||
SCPY502 : CLASSICAL MECHANICS | 3 | ||
SCPY503 : QUANTUM MECHANICS | 3 | ||
SCPY504 : THERMODYNAMICS AND STATISTICAL PHYSICS | 3 | ||
SCPY505 : MATHEMATICAL METHODS FOR PHYSICISTS | 3 | ||
SCPY507 : CLASSICAL ELECTRODYNAMICS | 3 | ||
SCPY508 : CONTEMPORARY PHYSICS | 3 | ||
SCPY592 : SEMINAR IN ADVANCED PHYSICS | 1 | ||
SCPY602 : ADVANCED RESEARCH IN PHYSICS | 2 | ||
For students with Master's degree | |||
SCPY508 : CONTEMPORARY PHYSICS | 3 | ||
SCPY592 : SEMINAR IN ADVANCED PHYSICS | 1 | ||
SCPY602 : ADVANCED RESEARCH IN PHYSICS | 2 | ||
Elective Courses | Credit | ||
For students with Bachelor's degree | |||
MATHEMATICS AND COMPUTING | |||
SCPY510 : ADVANCED MATHEMATICAL METHODS FOR PHYSICISTS | 3 | ||
SCPY570 : SIGNAL AND IMAGE PROCESSING | 3 | ||
SCPY571 : PARALLEL PROGRAMMING | 3 | ||
SCPY574 : NUMERICAL METHODS FOR DIFFERENTIAL EQUATIONS | 3 | ||
SCPY576 : SCIENTIFIC VISUALIZATION | 3 | ||
SCPY612 : COMPUTATIONAL PHYSICS I | 3 | ||
SCPY613 : COMPUTATIONAL PHYSICS II | 3 | ||
CLASSICAL PHYSICS AND NONLINEAR PHYSICS | |||
SCPY517 : FLUID MECHANICS | 3 | ||
SCPY523 : CLASSICAL FIELD THEORY | 3 | ||
SCPY575 : COMPUTATIONAL FLUID DYNAMICS | 3 | ||
SCPY614 : ADVANCED FLUID MECHANICS | 3 | ||
SCPY646 : FRACTALS AND CHAOS | 3 | ||
SCPY647 : NONLINEAR WAVES | 3 | ||
SCPY648 : COMPUTATIONAL NONLINEAR PHENOMENA | 3 | ||
SCPY655 : COMPLEX SYSTEMS | 3 | ||
SCPY686 : SELECTED TOPICS IN NONLINEAR PHENOMENA | 3 | ||
QUANTUM MECHANICS AND ITS APPLICATIONS | |||
SCPY511 : ATOMIC AND MOLECULAR PHYSICS | 3 | ||
SCPY519 : NUCLEAR PHYSICS | 3 | ||
SCPY522 : ADVANCED QUANTUM MECHANICS | 3 | ||
SCPY611 : ADVANCED ATOMIC PHYSICS | 3 | ||
SCPY620 : NON-PERTURBATIVE METHODS IN QUANTUM FIELD THEORY | 3 | ||
SCPY621 : SUPERSYMMETRY IN FIELD THEORY AND STRING | 3 | ||
SCPY637 : MOLECULAR SIMULATION | 3 | ||
SCPY638 : MOLECULAR QUANTUM MECHANICS | 3 | ||
SCPY639 : QUANTUM FIELD THEORY | 3 | ||
SCPY640 : THEORY OF MANY-PARTICLE SYSTEMS | 3 | ||
SCPY644 : APPLIED QUANTUM PHYSICS | 3 | ||
CONDENSED MATTERS AND MATERIAL SCIENCE | |||
SCPY515 : ELECTRICAL MATERIALS | 3 | ||
SCPY516 : ELECTRONIC DEVICES AND CIRCUITS | 3 | ||
SCPY521 : PHYSICS OF SEMICONDUCTOR | 3 | ||
SCPY543 : SURFACE AND INTERFACE PHYSICS | 3 | ||
SCPY642 : DIFFRACTION TECHNIQUES | 3 | ||
SCPY643 : THIN FILM PHYSICS AND TECHNOLOGY | 3 | ||
SCPY650 : PLASMA TECHNOLOGIES AND APPLICATIONS | 3 | ||
SCPY651 : SEMICONDUCTOR DEVICES | 3 | ||
SCPY652 : SUPERCONDUCTIVITY | 3 | ||
SCPY653 : SPECIAL METHODS IN THEORETICAL SUPERCONDUCTIVITY | 3 | ||
SCPY657 : ADVANCED CONDENSED MATTER PHYSICS | 3 | ||
SCPY658 : NON-EQUILIBRIUM STATISTICAL MECHANICS | 3 | ||
SCPY659 : STANDARD MODEL OF PARTICLE PHYSICS AND BEYOND | 3 | ||
SCPY683 : SELECTED TOPICS IN THIN FILM AND SURFACE PHYSICS | 3 | ||
QUANTUM OPTICS AND QUANTUM INFORMATION | |||
SCPY526 : QUANTUM OPTICS | 3 | ||
SCPY528 : QUANTUM INFORMATION | 3 | ||
SCPY615 : FOUNDATION OF QUANTUM THEORY | 3 | ||
SCPY616 : QUANTUM COMPUTING | 3 | ||
SCPY617 : QUANTUM COMMUNICATION | 3 | ||
SCPY689 : SELECTED TOPICS IN QUANTUM TECHNOLOGY | 3 | ||
ASTRONOMY AND ASTROPHYSICS | |||
SCPY531 : COSMIC RAYS | 3 | ||
SCPY532 : GALACTIC ASTRONOMY | 3 | ||
SCPY533 : ASTRONOMY AND ASTROPHYSICS | 3 | ||
SCPY534 : SOLAR PHYSICS | 3 | ||
SCPY535 : GENERAL RELATIVITY | 3 | ||
SCPY649 : PLASMA PHYSICS | 3 | ||
SCPY680 : SELECTED TOPICS IN ASTROPHYSICS | 3 | ||
SCPY681 : SELECTED TOPICS IN ASTRONOMY | 3 | ||
BIOPHYSICS | |||
SCPY561 : FUNDAMENTALS OF BIOPHYSICS | 3 | ||
SCPY562 : MODELING AND SIMULATION IN BIOPHYSICS | 3 | ||
SCPY668 : CONTEMPORARY BIOPHYSICS | 3 | ||
GEOPHYSICS | |||
SCPY581 : GEOPHYSICAL PROSPECTING: POTENTIAL FIELD METHODS | 3 | ||
SCPY582 : GEOPHYSICAL PROSPECTING: ELECTROMAGNETIC METHODS | 3 | ||
SCPY583 : GEOPHYSICAL PROSPECTING: SEISMIC METHODS | 3 | ||
SCPY584 : ADVANCED SEISMIC EXPLORATION | 3 | ||
SCPY585 : INTRODUCTORY SEISMOLOGY | 3 | ||
SCPY586 : APPLIED MODERN SEISMOLOGY | 3 | ||
SCPY587 : EARTHQUAKE SOURCE THEORY | 3 | ||
SCPY630 : PHYSICS OF THE SOLID EARTH | 3 | ||
SCPY670 : INVERSE THEORY AND APPLICATIONS | 3 | ||
SCPY684 : SELECTED TOPICS IN GEOPHYSICS | 3 | ||
PHYSICS EDUCATION | |||
SCPY626 : PHYSICS EDUCATION | 3 | ||
SCPY627 : DATA ANALYSIS IN PHYSICS EDUCATION | 3 | ||
SCPY628 : PHYSICS CONCEPTS AND MISCONCEPTION | 3 | ||
SCPY682 : SELECTED TOPICS IN PHYSICS EDUCATION | 3 | ||
SELECTED TOPICS IN PHYSICS AND APPLIED PHYSICS | |||
SCPY688 : SELECTED TOPICS IN APPLIED PHYSICS | 3 | ||
SCPY690 : SELECTED TOPICS IN THEORETICAL PHYSICS | 3 | ||
OPTICS | |||
SCPY524 : FOURIER OPTICS | 3 | ||
SCPY525 : PHOTONICS | 3 | ||
SCPY636 : OPTOELECTRONICS | 3 | ||
SCPY685 : SELECTED TOPICS IN LASER APPLICATIONS | 3 | ||
For students with Master's degree | |||
MATHEMATICS AND COMPUTING | |||
SCPY510 : ADVANCED MATHEMATICAL METHODS FOR PHYSICISTS | 3 | ||
SCPY570 : SIGNAL AND IMAGE PROCESSING | 3 | ||
SCPY571 : PARALLEL PROGRAMMING | 3 | ||
SCPY574 : NUMERICAL METHODS FOR DIFFERENTIAL EQUATIONS | 3 | ||
SCPY612 : COMPUTATIONAL PHYSICS I | 3 | ||
SCPY613 : COMPUTATIONAL PHYSICS II | 3 | ||
CLASSICAL PHYSICS AND NONLINEAR PHYSICS | |||
SCPY517 : FLUID MECHANICS | 3 | ||
SCPY523 : CLASSICAL FIELD THEORY | 3 | ||
SCPY575 : COMPUTATIONAL FLUID DYNAMICS | 3 | ||
SCPY614 : ADVANCED FLUID MECHANICS | 3 | ||
SCPY646 : FRACTALS AND CHAOS | 3 | ||
SCPY647 : NONLINEAR WAVES | 3 | ||
SCPY648 : COMPUTATIONAL NONLINEAR PHENOMENA | 3 | ||
SCPY655 : COMPLEX SYSTEMS | 3 | ||
SCPY686 : SELECTED TOPICS IN NONLINEAR PHENOMENA | 3 | ||
QUANTUM MECHANICS AND ITS APPLICATIONS | |||
SCPY519 : NUCLEAR PHYSICS | 3 | ||
SCPY522 : ADVANCED QUANTUM MECHANICS | 3 | ||
SCPY611 : ADVANCED ATOMIC PHYSICS | 3 | ||
SCPY620 : NON-PERTURBATIVE METHODS IN QUANTUM FIELD THEORY | 3 | ||
SCPY621 : SUPERSYMMETRY IN FIELD THEORY AND STRING | 3 | ||
SCPY637 : MOLECULAR SIMULATION | 3 | ||
SCPY638 : MOLECULAR QUANTUM MECHANICS | 3 | ||
SCPY639 : QUANTUM FIELD THEORY | 3 | ||
SCPY640 : THEORY OF MANY-PARTICLE SYSTEMS | 3 | ||
SCPY644 : APPLIED QUANTUM PHYSICS | 3 | ||
CONDENSED MATTERS AND MATERIAL SCIENCE | |||
SCPY516 : ELECTRONIC DEVICES AND CIRCUITS | 3 | ||
SCPY521 : PHYSICS OF SEMICONDUCTOR | 3 | ||
SCPY642 : DIFFRACTION TECHNIQUES | 3 | ||
SCPY643 : THIN FILM PHYSICS AND TECHNOLOGY | 3 | ||
SCPY650 : PLASMA TECHNOLOGIES AND APPLICATIONS | 3 | ||
SCPY652 : SUPERCONDUCTIVITY | 3 | ||
SCPY653 : SPECIAL METHODS IN THEORETICAL SUPERCONDUCTIVITY | 3 | ||
SCPY657 : ADVANCED CONDENSED MATTER PHYSICS | 3 | ||
SCPY658 : NON-EQUILIBRIUM STATISTICAL MECHANICS | 3 | ||
SCPY659 : STANDARD MODEL OF PARTICLE PHYSICS AND BEYOND | 3 | ||
SCPY683 : SELECTED TOPICS IN THIN FILM AND SURFACE PHYSICS | 3 | ||
QUANTUM OPTICS AND QUANTUM INFORMATION | |||
SCPY526 : QUANTUM OPTICS | 3 | ||
SCPY528 : QUANTUM INFORMATION | 3 | ||
SCPY615 : FOUNDATION OF QUANTUM THEORY | 3 | ||
SCPY616 : QUANTUM COMPUTING | 3 | ||
SCPY617 : QUANTUM COMMUNICATION | 3 | ||
SCPY689 : SELECTED TOPICS IN QUANTUM TECHNOLOGY | 3 | ||
ASTRONOMY AND ASTROPHYSICS | |||
SCPY531 : COSMIC RAYS | 3 | ||
SCPY532 : GALACTIC ASTRONOMY | 3 | ||
SCPY533 : ASTRONOMY AND ASTROPHYSICS | 3 | ||
SCPY534 : SOLAR PHYSICS | 3 | ||
SCPY535 : GENERAL RELATIVITY | 3 | ||
SCPY649 : PLASMA PHYSICS | 3 | ||
SCPY680 : SELECTED TOPICS IN ASTROPHYSICS | 3 | ||
SCPY681 : SELECTED TOPICS IN ASTRONOMY | 3 | ||
BIOPHYSICS | |||
SCPY561 : FUNDAMENTALS OF BIOPHYSICS | 3 | ||
SCPY562 : MODELING AND SIMULATION IN BIOPHYSICS | 3 | ||
SCPY668 : CONTEMPORARY BIOPHYSICS | 3 | ||
GEOPHYSICS | |||
SCPY581 : GEOPHYSICAL PROSPECTING: POTENTIAL FIELD METHODS | 3 | ||
SCPY582 : GEOPHYSICAL PROSPECTING: ELECTROMAGNETIC METHODS | 3 | ||
SCPY583 : GEOPHYSICAL PROSPECTING: SEISMIC METHODS | 3 | ||
SCPY584 : ADVANCED SEISMIC EXPLORATION | 3 | ||
SCPY585 : INTRODUCTORY SEISMOLOGY | 3 | ||
SCPY586 : APPLIED MODERN SEISMOLOGY | 3 | ||
SCPY587 : EARTHQUAKE SOURCE THEORY | 3 | ||
SCPY630 : PHYSICS OF THE SOLID EARTH | 3 | ||
SCPY670 : INVERSE THEORY AND APPLICATIONS | 3 | ||
SCPY684 : SELECTED TOPICS IN GEOPHYSICS | 3 | ||
PHYSICS EDUCATION | |||
SCPY626 : PHYSICS EDUCATION | 3 | ||
SCPY627 : DATA ANALYSIS IN PHYSICS EDUCATION | 3 | ||
SCPY628 : PHYSICS CONCEPTS AND MISCONCEPTION | 3 | ||
SCPY682 : SELECTED TOPICS IN PHYSICS EDUCATION | 3 | ||
SELECTED TOPICS IN PHYSICS AND APPLIED PHYSICS | |||
SCPY688 : SELECTED TOPICS IN APPLIED PHYSICS | 3 | ||
SCPY690 : SELECTED TOPICS IN THEORETICAL PHYSICS | 3 | ||
OPTICS | |||
SCPY524 : FOURIER OPTICS | 3 | ||
SCPY525 : PHOTONICS | 3 | ||
SCPY636 : OPTOELECTRONICS | 3 | ||
SCPY645 : LASER THEORY | 3 | ||
SCPY685 : SELECTED TOPICS IN LASER APPLICATIONS | 3 | ||
Dissertation | Credit | ||
For students with Bachelor's degree | |||
SCPY799 : DISSERTATION | 48 | ||
For students with Master's degree | |||
SCPY699 : DISSERTATION | 36 |