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  • advanced multilayer optics
  • attosecond metrology PIII
  • attosecond spectroscopy 2.0
  • attoworld
  • broadband infrared diagnostics
  • cmf laser science
  • cmf research group
  • field-resolved infrared metrology
  • field-resolved nano spectroscopy
  • February 18, 2022 // Broadband infrared diagnostics, Field-resolved infrared metrology, CMF research group, CMF Laser Science
    new infrasampler technology on the clinical test run

    Extensive efforts by the Max-Planck-Institute for Quantum Optics (MPQ), the Ludwig-Maximilians University Munich (LMU) and the Center for Molecular Fingerprinting Research (CMF) teams are together advancing the frontiers of laser science …

  • a new generation of thin-disk oscillators

    Ultrafast laser oscillators are indispensable tools for diverse applications in scientific research and …

  • FRM group joins Max Planck-UBC-UTokyo Center for Quantum Materials
    The Field-Resolved Infrared Metrology Research Group has established a new collaboration between the … More
  • measuring the electric field of mid-infrared pulses at a rate of 38,000 times …

    We report measurements of the full electric field of octave-spanning mid-infrared pulses at acquisition rates …

  • the coming-of-age of femtosecond enhancement cavities

    Ioachim Pupeza and Maximilian Högner from the Field-Resolved Infrared Metrology Research Group have …

  • approaching the ultimate limits of infrared spectroscopy

    Researchers at Attoworld are exploring novel routes to reach the ultimate limits of broadband infrared …

  • FRS of strongly absorbing (biological) samples
    Infrared spectroscopy is a versatile method for studying biological samples in liquid media. This led to … More
  • FRS paper highlighted by Nature News & Views

    Our recently published paper “Field-resolved infrared spectroscopy of biological systems” [1] has been …

  • field-resolved infrared spectroscopy of biological systems
    In cooperation between the Laboratory of Attosecond Physics at the Max Planck Institute of Quantum Optics and … More
  • two advances for ultrafast mid-infrared (MIR) spectroscopy
    Firstly, our team used a commercially available optical positioning device (PicoScale Interferometer, SmarAct) … More
  • towards differential molecular fingerprinting

    With an achromatic Mach-Zehnder-type interferometer, our team has shown a first proof-of-principle of …

  • new frontend for next-generation field-resolved infrared spectroscopy

    Our team, together with collaborators from the Institute of Applied Physics at the University of Jena, has …


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