R. Krämer prepares an experiment in the laboratory.
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Equipment

R. Krämer prepares an experiment in the laboratory.
Image: Jan-Peter Kasper (University of Jena)
Titanium Sapphire Systems

3x Spectra Physics, Spitfire; Coherent, RegA; Clark MXR - 2110

  •          wavelength: 800 nm
  •          pulse energy: up to 5 mJ @ 1 kHz or up to 4 µJ @ 100 kHz
  •          pulse duration: 30 fs and 100 fs (bandwidth limited); continuous tuning possible up to 20 ps
  •          optical parameteric amplifier (OPA), tunable from 240 nm to 11 µm
High energy oscillators

2x Amplitude Systemes, t-Pulse 500

  • wavelength: 1030 nm, 515 nm
  • pulse energy: up to 500 nJ @ 9.7 MHz
  • pulse duration: 500 fs
Yb-based amplifiers

Light Conversion, Pharos SP; Amplitude Systemes, Satsuma

  • wavelength: 1026 nm, 513 nm
  • average power: up to 6 W @ 1 MHz
  • maximum pulse energy: 1 mJ @ 4 kHz
  • pulse duration 180 fs - 10 ps
  • optical parameteric amplifier (OPA), tunable from 630 nm to 2600 nm
High power amplifiers

Trumpf, TruMicro 5050; Active Fiber Systems, sci-Series

  • wavelength 1030 nm, 515 nm, 343 nm
  • average power: 50 W @ 500 kHz - 20 MHz
  • maximum pulse energy: 100 µJ @ <500 kHz
  • pulse duration 500 fs - 20 ps, 100 ps - 600 ps
Infrared laser

Raydiance, SmartLight 50

  • wavelength 1552 nm, 776 nm, 388 nm
  • average power: 5 W @ 100 kHz
  • maximum pulse energy: 80 µJ @ 30 kHz
  • pulse duration 800 fs - 10 ps
Technical Equipment
  •           high precision positioning systems, linear, rotary stages, spindle
  •          acousto-optical modulators for fast switching
  •          spatial light modulators
  •          autocorrelator, FROG, Spider for pulse characterization
  •          galvo-scanners
  •          optical microscopes, BF, DF, DIC, polarization contrast, interference
  •          µRaman spectrometer
  •         scanning electron microscope
  •          intensified cameras, iCCD for visible and infrared spectrum
  •          super continuum source
  •          vacuum chambers