136.060 Journal Club Theoretical Quantum Dynamics
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2019S, SE, 2.0h, 3.0EC
TUWEL

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: SE Seminar

Aim of course

Discussing recent scientific publications Master and PhD students in physics should learn about current scientific developments in theoretical quantum dynamics.

Subject of course

(Quantum) Physics:

  • on the nanoscale (new materials, Graphene, Quantum chaos)

  • on ultrashort time scales (atoms, molecules, and solids in extremely short laser pulses)

  • at ultracold temperatures (matter waves, Bose-Einstein condensates, atoms in optical lattices)

Within the summer term 2019 we will focus on physics on ultrashort time scales (Femto- and Attosecondphysics).

Additional information

First meeting Thursday March 7th, seminar room on the 3rd floor, yellow area

How it works: each week 1-2 publications will be covered which should have been read by everyone. After a short informal presentation by one student there will be a group discussion.

Theoretical as well as experimental articles will be covered.

The list of chosen publications is available in the tuwel course for the seminar.

Please consider the plagiarism guidelines of TU Wien when writing your seminar paper: Directive concerning the handling of plagiarism (PDF)

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Thu14:00 - 16:0007.03.2019 - 27.06.2019Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri14:00 - 16:0015.03.2019 - 28.06.2019Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Journal Club Theoretical Quantum Dynamics - Single appointments
DayDateTimeLocationDescription
Thu07.03.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Thu14.03.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri15.03.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu21.03.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri22.03.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu28.03.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri29.03.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu04.04.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri05.04.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu11.04.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri12.04.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu02.05.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri03.05.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu09.05.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri10.05.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu16.05.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri17.05.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu23.05.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik
Fri24.05.201914:00 - 16:00Sem.R. DB gelb 10 Journal Club Theoretical Quantum Dynamics
Thu06.06.201914:00 - 16:00Sem.R. DB gelb 03 Literaturseminar Theoretische Quantendynamik

Examination modalities

oral exam (presenting a current scientific publication).

Course registration

Begin End Deregistration end
03.03.2019 00:00 02.05.2019 23:00 03.07.2019 23:00

Registration modalities

Course registration via TISS prefered.

Curricula

Study CodeObligationSemesterPrecon.Info
066 461 Technical Physics Elective
066 461 Technical Physics Mandatory elective
066 461 Technical Physics Not specified
810 FW Elective Courses - Technical Physics Elective

Literature

Scientific publications (Physical Review, Journal of Physics, Nature, Science, ...)

Previous knowledge

  • Bachelor degree in physics
  • Basic knowledge of quantum physics

Preceding courses

Language

English