Zusammenfassung der Projektergebnisse

In this work, we have demonstrated a signicant improvement in the resolution of spectroscopy of molecular ions in ion traps. We believe that this represents a milestone in the eld. We have used the method to perform the most precise measurement of a particle mass by molecular spectroscopy, to date. We also produced the very important theoretical result that the spectroscopy of the hydrogen molecular ions has the potential to reach the 10^−17 inaccuracy level, which is of interest in the eld of test of constancy of fundamental constants. We achieved state-of-the-art results concerning the frequency stabilization and ultra-narrow linewidth of quantum cascade lasers. One additional outcome is the insight that there are excellent prospects for increasing resolution and accuracy of the rotational spectroscopy further.

Projektbezogene Publikationen (Auswahl)

• Static Stark effect in the molecular ion HD+, Hyperne Interactions 210, 25 (2012)
  Bakalov, Dimitar & Schiller, Stephan
  
• Robust, frequency-stable and accurate mid-IR laser spectrometer based on frequency comb metrology of quantum cascade lasers upconverted in orientation-patterned GaAs, Opt. Express 21, 27043 (2013)
  Hansen, Michael G.; Ernsting, Ingo; Vasilyev, Sergey V.; Grisard, Arnaud; Lallier, Eric; Gérard, Bruno & Schiller, Stephan
  
• A simple method for characterization of the magnetic field in an ion trap using Be+ ions, Europ. Phys. J. D 68, 359 (2014)
  Shen, Jianwei; Borodin, Andrii & Schiller, Stephan
  
• Simplest molecules as candidates for precise optical clocks, Phys. Rev. Lett. 113, 023004 (2014)
  Schiller, S.; Bakalov, D. & Korobov, V. I.
  
• The electric quadrupole moment of molecular hydrogen ions and their potential for a molecular ion clock, Appl. Phys. B 114, 213 (2014) (Special Issue in honor of W. Paul's 100th birthday); Erratum: Appl. Phys. B 116, 777-778 (2014)
  Bakalov, D. & Schiller, S.
  
• The static and dynamic polarisability, and the Stark and black-body radiation frequency shifts of the molecular hydrogen ions H2+, HD+, and D2+, Phys. Rev. A 89, 052521 (2014)
  Schiller, S.; Bakalov, D.; Bekbaev, A. K. & Korobov, V. I.
  
• Quantum cascade laser-based mid-IR frequency metrology system with ultra-narrow linewidth and 1 × 10^−13 - level frequency instability, Opt. Lett. 40, 2289 (2015)
  Hansen, Michael G.; Magoulakis, Evangelos; Chen, Qun-Feng; Ernsting, Ingo & Schiller, Stephan
  
• Quantum state preparation of homonuclear molecular ions enabled via a cold buffer gas: An ab initio study for the H2+ and the D2+ case, Phys. Rev. A 95, 043411 (2017)
  Schiller, S.; Kortunov, I.; Hernández Vera, M.; Gianturco, F. & da Silva, H.
  
• (2018) Rotational spectroscopy of cold and trapped molecular ions in the Lamb–Dicke regime. Nature Phys (Nature Physics) 14 (6) 555–559
  Alighanbari, S.; Hansen, M. G.; Korobov, V. I. & Schiller, S.