4000
General theory of addition of angular momentum. Wignet-Eckart Theorem. Feynman´s formulation of quantum mechanics. Perturbation theory. Time-dependent quantum mechanics. Identical particles. Second quantization.
Credits
4
Seminar 1 introduces student to one of the areas of Physics that involves research in the Department of Physics, and which offers a weekly seminar with conferences from the group members and from guests from other subject matter institutions. Students participate by attending the conferences and by presenting, at the end of the seminar, a conference on a topic suggested by the seminar director or by a group professor.
Credits
2
Instructor
Botero Alonso
In Seminar 2 students, in addition to attending the group seminar, must prepare a graduation project under the guidance of a processor to submit it for external assessment (two evaluators) one month before the end of the semester. The grade of this course can only be assigned once the opinion of the evaluators is received, and students must register the Graduation Work 1 on the immediately following semester.
Credits
2
Instructor
Botero Alonso
Principles of classic statistics mechanics. Microcanonical, canonical and super-canonical statistical sets. Quantico statistical mechanics. Ideal fermionic and bosonic gases. Applications. Phase transitions. Escalation. Critical exponents. Re-normalization group. Special topics.
Credits
3
Instructor
Tellez Acosta Gabriel
Credits
4
Develop among students advanced experimental skills in data acquisition, analysis, conclusions and preparation of reports. Use of specialized instrumentation. Preparation of laboratory projects.
Credits
3
Instructor
Hernandez Carlos
Credits
4
Instructor
Botero Alonso
Credits
3
Credits
3
Research led (or co-led) by a professor, researcher of the department, who represents a contribution to the advance of the physics (see General Postgraduate guidelines).
Credits
6
Research led (or co-led) by a professor, researcher of the department, who represents a contribution to the advance of the physics (see General Postgraduate guidelines).
Credits
6
Seminar I allows the student to have a close study on one of the fields of Physics where the Physics department conducts research, and offers a weekly seminar with conferences given by the members of the group, as well as by guests from other leading institutions. The student takes part by attending to the conferences and presenting, at the end of the seminar, a conference on a topic suggested by the director of the seminar, or by a professor of the group.
Credits
2
In seminar II, besides attending the group´s seminar, the student must write a degree project under the guidance of a professor. This project must be subject to external revision (two evaluators) one month before the semester ends. The grade for this course may only be granted once the revisions of the two evaluators have been received. The student must enroll in Thesis 1 in the immediate semester.
Credits
2
Instructor
Gomez Moreno Bernardo
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current literature in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current literature in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current bibliography in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current bibliography in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current bibliography in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current bibliography in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Two-hour meetings (at least once a week with a pre established schedule) held to enable students to present on advanced topics related to their Doctoral specialty, to encourage them to read current bibliography in their area, and to discuss topics related to their research. In these meetings students are to give conferences and address the issues put forward by their colleagues and professors.
Credits
3
Credits
4
Credits
3
Credits
2
Lagrangian and Hamiltonian formulation of classic mechanics. Rotations, orthogonal transformations, inertia tensioner, main axes and rigid body Euler equations. Canonic transformations. Action angular variables. Hamilton equation - Jacobi. Small oscillations. Complex systems.
Credits
4
Coulomb and Gauss’s Laws. Electric potential. Green’s functions. Solution to Laplace equations in different geometries. Special related functions. Maxwell’s equations in free space. Electromagnetic potentials. Pointing Vector. Gauge transformations. Green’s functions of wave equations and solutions to delayed potentials. Quadrivectors. Tensors. Lorentz’s Transformations and covariant formulation of electrodynamics. Covariant Green’s functions. Radiation of a moving particle. Lienard-Wiechert Potential. Larmor’s formula and relativist generalization. Radiation distribution and spectrum. Syncotron radiation. Thompson’s dispersion.
Credits
3
Credits
3
Instructor
Quiroga Puello Luis
Credits
4
Credits
2
Credits
2
Instructor
Prieto German
Credits
4
Seminar I allows students to familiarize themselves with one of the areas of current research in the Department of Physics, and features a weekly seminar with lectures by members of the group and invited experts from other institutions. Students participate by attending the lectures, and presenting their own lecture at the end of the course on a topic suggested by the seminar chair or professor from the group.
Credits
2
Instructor
Quiroga Puello Luis
In seminar II, students, besides attending to the group activity, must engage in a graduation project under the guidance of a professor, which will be subject to assessment (by two external evaluators) one month before the end of the semester. The grade of this course can only be assigned once the evaluators have submitted their appreciation, and the students shall register their Graduation Project I in the immediately following semester.
Credits
2
Instructor
Quiroga Puello Luis
Seminar I allows students to familiarize themselves with one of the areas of current research in the Department of Physics, and features a weekly seminar with lectures by members of the group and invited experts from other institutions. Students participate by attending the lectures, and presenting their own lecture at the end of the course on a topic suggested by the seminar chair or professor from the group.
Credits
3
Instructor
Pati?O Zapata Edgar
Credits
3
Instructor
Camacho Beltran Angela
Seminar I allows students to familiarize themselves with one of the areas of current research in the Department of Physics, and features a weekly seminar with lectures by members of the group and invited experts from other institutions. Students participate by attending the lectures, and presenting their own lecture at the end of the course on a topic suggested by the seminar chair or professor from the group.
Credits
2
Instructor
Forero Shelton Antonio
In seminar II, students, besides attending to the group activity, must engage in a graduation project under the direction of a professor, which will be subject to assessment (by two external evaluators) one month before the end of the semester. The grade of this course can only be assigned once the evaluators have submitted their appreciation, and the students shall register their Graduation Project I in the immediately following semester.
Credits
2
Credits
4
Credits
0
Credits
3
Instructor
Leidy Chad
Seminar I allows students to familiarize themselves with one of the areas of current research in the Department of Physics, and features a weekly seminar with lectures by members of the group and invited experts from other institutions. Students participate by attending the lectures, and presenting their own lecture at the end of the course on a topic suggested by the seminar chair or professor from the group.
Credits
2
In seminar II, students, besides attending to the group activity, must engage in a graduation project under the direction of a professor, which will be subject to assessment (by two external evaluators) one month before the end of the semester. The grade of this course can only be assigned once the evaluators have submitted their appreciation, and the students shall register their Graduation Project I in the immediately following semester.
Credits
2
Credits
4
Registration for Graduation
Credits
0
Course addressed to graduate Physics students who state their interest in learning Astronomy work tools and techniques, particularly in the area of electroscope in optic and infrared bands. The course is focused on the use of IRAF as spectrum processing and calibration tool.
Credits
3