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Quantum technologies

Dieter Meschede's research group
Home AMO physics colloquia
Colloquia
  • Jürgen Eschner

    (25/07/17)
  • Invited speaker: Jürgen Eschner
    Affiliation: Universität Saarbrücken
    Title:
    Time and room: 17:15, lecture hall IAP
    Abstract:


     

  • Günter Huber

    (18/07/17)
  • Invited speaker: Günter Huber
    Affiliation: Universität Hamburg
    Title: Semiconductor Laser Pumped Rare Earth Ion Doped Solid-state Lasers
    in the Visible and Near Infrared Spectral Region
    Time and room: 17:15, lecture hall IAP
    Abstract: The talk reviews the basic concepts of advanced highly efficient rare earth ion doped
    solid-state lasers based on laser ions such as Yb3+, Tm3+, Er3+, Pr3+, and Tb3+ which
    have opened new prospects for laser applications at various wavelengths and power
    regimes. The main emphasis is placed on the interplay between materials aspects and
    most relevant spectroscopic as well as laser related properties in the search for new
    solid-state laser systems.
    For the near infrared spectral region Yb3+-doped laser crystals feature very high
    efficiencies and reduced heat generation due to small Stokes-losses between pump and
    laser photons. In particular, Yb3+:Lu2O3 possesses high thermal conductivity and have
    been operated at record slope efficiencies of 80% in continuous wave operation and at
    more than 100 W of average power in the mode-locked sub-ps operation regime. Laser
    diode pumped, highly efficient 2-μm Tm3+- and 3-μm Er3+-lasers with special interest
    for medical applications are based on interionic interactions of Tm3+ and Er3+ laser ions,
    respectively.
    Breakthroughs regarding efficient visible coherent light generation have been achieved
    with Pr3+- and Tb3+-lasers operating in the green, orange, and red spectral region under
    blue semiconductor laser pumping. Here both, the development of blue semiconductor
    pump lasers and the use of suitable short wavelength hosts with minimized excited state
    absorption of the laser ions contributed to major achievements.
    The functionality of laser crystals can be further increased by direct micro-structuring of
    bulk crystals with ultrafast laser pulses yielding for instance efficient waveguide lasers
    with diffraction limited, fundamental modes in the near infrared and visible spectral
    region. This simple direct light writing technique is also suitable for the fabrication of
    more complex structures for integrated optics in single crystalline dielectrics.



     

    SELECTED
  • Klas Lindfors

    (11/07/17)
  • Invited speaker: Klas Lindfors
    Affiliation: Universität zu Köln
    Title: Plasmonic Nanoantennas For Wireless Signal Transmission
    Time and room: 17:15, lecture hall IAP
    Abstract: Optical nanoantennas and nanoantenna arrays are highly innovative approaches for optical signal transmission. Transmitting the signal via a free-space link (power law signal decay) instead of plasmonic waveguides (exponential signal decay) allows realizing low-loss optical communications links without sacrificing deep sub-wavelength field confinement at the transmitting and receiving points. This is a promising route for reconciling the size mismatch between diffraction-limited integrated photonics and integrated electronics. In my talk I will present results from our work on realizing plasmonic nanoantenna devices to control the transmission of light [1,2] and on integrating single quantum emitters into nanoantennas [3,4].
    [1] D. Dregely et al., Nat. Commun. 5, 4354 (2014).
    [2] K. Lindfors et al., ACS Photonics 3, 286 (2016).
    [3] M. Pfeiffer et al., Nano Lett. 14, 197 (2014).
    [4] H. Zhang et al., Appl. Phys. Lett. 106, 101110 (2015).



     

  • Christoph Stampfer

    (04/07/17)
  • Invited speaker: Christoph Stampfer
    Affiliation: RWTH Aachen
    Title:
    Time and room: 17:15, lecture hall IAP
    Abstract:

  • Manfred Fiebig

    (20/06/17)
  • Invited speaker: Manfred Fiebig
    Affiliation: ETH Zürich
    Title:
    Time and room: 17:15, lecture hall IAP
    Abstract: