Lecture: 5.04.4661 Applied Photonics I / Spectrophysics - Details

Lecture: 5.04.4661 Applied Photonics I / Spectrophysics - Details

General information

Course name Lecture: 5.04.4661 Applied Photonics I / Spectrophysics
Subtitle
Course number 5.04.4661
Semester WiSe18/19
Current number of participants 4
expected number of participants 30
Home institute Institute of Physics
Courses type Lecture in category Teaching
First date Thursday, 18.10.18, 10:00 - 12:00 o'clock W32 1-113
Type/Form
Pre-requisites Atomic and Molecular Physics, Optical systems
Performance record max. 2hr written examination or max 1h oral examination or experimental work and laboratory reports or presentation or homework
Lehrsprache englisch
ECTS points 6

Topics

Jehle, Tom: - Ribeiro-Claro_2016_Single-shot ultrafast optical imaging_optica, Ratert, Leonard: Removal of anti-Stokes emission background in STED microscopy by FPGA-based synchronous detection, Beer, Marcel: Dual-comb spectroscopy of laser-induced plasmas, Lässing, Pamina: The light sheet microscopy revolution, Huxoll, Nils: Simple_method_for_liquid_analysis_by_laser-_induced_breakdown_spectroscopy_LIBS, Ratert, Leonard: Lazic_18_Determination of antimony concentrations in plastic by LIBS, Buck, Maximilian: A hyphenated echelle LIBS-Raman system for multi-purpose applications, Müller, Sven: Industrial Applications of Laser-Induced Breakdown Spectroscopy, Kesper, Laura: Fiber-based light sources for biomedical applications of coherent anti-Stokes Raman scattering microscopy, Lässing, Pamina: Femtosecond laser-induced breakdown spectroscopy: Elemental imaging of thin films with high spatial resolution, Reershemius, Dennis: Analyzing different Karats of Gold using LIBS and LA-TOF-MS, Strathmann, Katharina: THE LASER INTERFEROMETER GRAVITATIONAL-WAVE OBSERVATORY AND THE FIRST DIRECT OBSERVATION OF GRAVITATIONAL WAVES, Ersatztermin, Vorlesung, Buck, Maximilian: A Practical Guide to Optical Trapping, Diehm, Vanessa; Single-shot_ultrafast_optical_imaging, Müller, Sven: An introduction to optical super-resolution microscopy for the adventurous biologist, Piezunka, Milan: Real-time_mid-infrared_imaging_of_living_microorganisms, Reichel, Markus Thomas: Complex Light, Jehle - single shot ultrafast optical imaging, Jehle, Tom: Ribeiro-Claro_2016_Characterization of Microplastics by Raman Spectroscopy, Jehle, Tom: Single-shot ultrafast optical imaging_optica-5-9-1113

Rooms and times

W32 1-113

  • Thursday, 10:00 - 12:00, Weekly (from 18.10.18)

W06 0-008

  • Thursday, 14:00 - 16:00, Weekly (from 18.10.18)

Module assignments

  • Campusmanagementsystem Stud.IP

Comment/Description

Students gain in depth theoretical as experimental knowledge on advanced optical spectroscopy applied to atomic and molecular systems. They are qualified in setting up innovative methods and measurement devices based on their expert competence in up-to-date research and development areas. The course prepares the students to work in the field of optical science and engineering in general, and yields the base for all further specialisations within the field of optics and laser technology.

Content:
Atomic structure and atomic spectra, molecular structure and molecular spectra, emission and absorption, width and shape of spectral lines, radiative transfer and transition probabilities, elementary plasma spectroscopy, experimental tools in spectroscopy, dispersive and interferometric spectrometers, light sources and detectors, laser spectroscopy, nonlinear spectroscopy, molecular spectroscopy, time resolved spectroscopy, coherent spectroscopy

Admission settings

The course is part of admission "Anmeldung gesperrt (global)".
Erzeugt durch den Stud.IP-Support
The following rules apply for the admission:
  • Admission locked.