Publications in A01

Dissertations (geo-q)

  • Corgier, R. (2019): Engineered atomic states for precision interferometryGottfried Wilhelm Leibniz Universität, Diss., xvi, 192 S.
    DOI: 10.15488/5152
  • Sahelgozin, Maral (2019): Design and construction of a transportable quantum gravimeter and realization of an atom-chip magnetic trapGottfried Wilhelm Leibniz Universität, Diss., 2019, iii, 109 S.
    DOI: 10.15488/5055
  • Schilling, M. (2019): Kombination von klassischen Gravimetern mit QuantensensorenWissenschaftliche Arbeiten der Fachrichtung Geodäsie und Geoinformatik der Universität Hannover
  • Abend S. (2017): Atom-chip gravimeter with Bose-Einstein condensatesHannover : Technische Informationsbibliothek (TIB), Dissertation an der QUEST-Leibniz-Forschungsschule der Gottfried Wilhelm Leibniz Universität Hannover More Info

Non Peer-Reviewed Literature (geo-q)

  • Abend S. and Rasel E. M. (2017): Kompaktes Fontänen-Gravimeter auf einem AtomchipPhysik in unserer Zeit 48, 61-62 (2017)
    DOI: 10.1002/piuz.201770207
  • Freier C., Hauth M., Schkolnik V., Leykauf B., Schilling M., Wziontek H., Scherneck H., Müller J. and Peters A. (2015): Mobile quantum gravity sensor with unprecedented stability8th Symposium on Frequency Standards and Metrology, Journal of Physics: Conference Series 723:012050
    DOI: 10.1088/1742-6596/723/1/012050
    arXiv: 1512.05660

Peer-Reviewed Literature (geo-q)

  • Gebbe, M.; Siemß, J.-N.; Gersemann, M.; Müntinga, H.; Herrmann, S.; Lämmerzahl, C.; Ahlers, H.; Gaaloul, N.; Schubert, C.; Hammerer, K.; Abend S.; Rasel E.M. (2021): Twin-lattice atom interferometryNature Communications 12, 2544
    DOI: 10.1038/s41467-021-22823-8
    arXiv: 1907.08416
  • Svitlov S. (2018): Dynamic phase shift within a falling glass cube is negligible: comment on 'Relativistic theory of the falling retroreflector gravimeter'Metrologia, Volumne 55, Number 4, 609-613 More Info
    DOI: 10.1088/1681-7575/aac442
  • Abend S., Gebbe M., Gersemann M., Ahlers H., Müntinga H., Giese E., Gaaloul N., Schubert C., Lämmerzahl C., Ertmer W., Schleich W.P., Rasel E.M. (2016): Atom-Chip Fountain GravimeterPhysical Review Letters, 117, 203003
    DOI: 10.1103/PhysRevLett.117.203003
  • Ahlers H., Müntinga H., Wenzlawski A., Krutzik M., Tackmann G., Gaaloul N., Giese E., Roura A., Kuhl R., Lämmerzahl C., Peters A., Windpassinger P., Sengstock K., Schleich W. P., Ertmer W. and Rasel E.M. (2016): Double Bragg InterferometryPhys. Rev. Lett. 116, 173601 (2016) More Info
    DOI: 10.1103/PhysRevLett.116.173601
  • Giese E., Friedrich A., Abend S., Rasel E. M. and Schleich W. P. (2016): Light shifts in atomic Bragg diffractionPhys. Rev. A 94, 063619 (2016) More Info
    DOI: 10.1103/PhysRevA.94.063619

Presentations, Talks and Posters (geo-q)

  • Gersemann M. (2017): Atom-Chip interferometry with Bose-Einstein condensatesDPG Spring meeting 2017, Mainz, Germany, 06 - 10 March, 2017
  • Matthias J. and Heine H. (2017): Atom-Chip based BEC sources for compact and transportable experimentsDPG Spring meeting 2017, Mainz, Germany, 06 - 10 March, 2017
  • Sahelgozin M. (2017): Transportable Quantum Gravimeter - QG-1DPG Spring meeting 2017, Mainz, Germany, 06 - 10 March, 2017
  • Abend S. (2016): Atom-chip based BEC InterferometryC. Lämmerzahl's birthday colloquium, 08 August, 2016
  • Abend S. (2016): Atom-chip fountain gravimeterDPG Spring meeting 2016, Hannover, Germany, 29 February - 04 March, 2016
  • Abend S. (2016): Atom-chip-based quantum gravimetry for the precise determination of absolute gravityEGU General Assembly 2016, Vienna, Austria, 17 - 22 April, 2016
  • Gersemann M. (2016): Atom-chip interferometry with Bose-Einstein condensatesFOMO2016 - Frontiers in Matter Wave Optics, 10 - 17 September, 2016
  • Abend S. (2015): Atom-chip based quantum gravimetry with Bose-Einstein condensatesDAMOP 2015, 10 June, 2015
  • Matthias J. (2015): Atom-chip based quantum gravimetry with Bose-Einstein condensates8th Symposium on Frequency Standards and Metrology, Potsdam, Germany, 12- 16 October, 2015

Related (geo-q)

  • Schirber M. (2016): Focus: Measuring Gravity with an Atom ChipPhysics 9, 131 More Info