387.078 Nano-Photonics
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2020W, VO, 2.0h, 3.0EC

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: VO Lecture
  • Format: Online

Learning outcomes

After successful completion of the course, students are able to explain the theoretical concepts of nano photonic devices. This includes the desciption and calculation of  metamaterials and photonic crystals as well as of plasmonics devices and quantum ligth emitters

Subject of course

Modern concepts of photonic devices are presented and discussed in detail. Those include, for instance, metamaterials, photonics crystals, plasmonic devices, and quantum light sources.

Teaching methods

course presentation by lecturer(s)

Mode of examination

Written and oral

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Wed16:00 - 18:0014.10.2020 - 27.01.2021Seminarraum 387 Lecture
Nano-Photonics - Single appointments
DayDateTimeLocationDescription
Wed14.10.202016:00 - 18:00Seminarraum 387 Lecture
Wed21.10.202016:00 - 18:00Seminarraum 387 Lecture
Wed28.10.202016:00 - 18:00Seminarraum 387 Lecture
Wed04.11.202016:00 - 18:00Seminarraum 387 Lecture
Wed11.11.202016:00 - 18:00Seminarraum 387 Lecture
Wed18.11.202016:00 - 18:00Seminarraum 387 Lecture
Wed25.11.202016:00 - 18:00Seminarraum 387 Lecture
Wed02.12.202016:00 - 18:00Seminarraum 387 Lecture
Wed09.12.202016:00 - 18:00Seminarraum 387 Lecture
Wed16.12.202016:00 - 18:00Seminarraum 387 Lecture
Wed13.01.202116:00 - 18:00Seminarraum 387 Lecture
Wed20.01.202116:00 - 18:00Seminarraum 387 Lecture
Wed27.01.202116:00 - 18:00Seminarraum 387 Lecture

Examination modalities

oral/written exam

Course registration

Begin End Deregistration end
28.09.2020 00:00 29.10.2020 23:59

Curricula

Study CodeObligationSemesterPrecon.Info
066 508 Microelectronics and Photonics Not specified

Literature

A Scriptum will be handed out during the lecture.

Recommended textbooks for further reading:

L. Novotny, B. Hecht, Principles of Nano-optics, Cambridge University Press 2006
S.A. Maier, Plasmonics: fundamentals and applications, Springer 2007
J.D. Joannopoulos, R.D. Meade, J.N. Winn, Photonics Crystals - Molding the flow of light, Princeton University Press 1995
M.L. Brongersma, P.G. Kik, Surface plasmon nanophotonics, Springer 2007
M.O. Scully, M.S. Zubairy, Quantum optics, Cambridge University Press 1997
L. Mandel, E. Wolf, Optical coherence and quantum optics, Cambridge University Press 1995
F. Capolino, Theory and phenomena of metamaterials, CRC Press 2009
M. Agio, A. Alù, Optical antennas, Cambridge University Press 2013

- the latest review papers on topics covered by the lecture

Previous knowledge

Basic knowledge of general physics, mathematics and optics is required.

Language

English