Dr.  Benjamin  Knispel
Dr. Benjamin Knispel
Pressereferent AEI Hannover
Telefon:+49 511 762-19104Fax:+49 511 762-17182
Dr. Elke Müller
Dr. Elke Müller
Pressereferentin AEI Potsdam
Telefon:+49 331 567-7303Fax:+49 331 567-7298

Ausgewählte Forschungshighlights

Original 1558448495

Quantum theory and the beginning of the Universe

24. Mai 2019
Rewriting Hartle's and Hawking's no-boundary proposal as a path integral with Robin boundary conditions [mehr]
Original 1548843795

Exploring the performance of inspiral-merger waveform models with tidal effects

18. Januar 2019
Implementation and performance of inspiral-merger waveform models including tidal effects from numerical relativity based approximation [mehr]
Original 1547637072

Investigating the noise residuals around GW150914

9. November 2018
Are there statistically significant noise correlations between the LIGO detectors at the time of GW150914? [mehr]
Original 1547636010

First open gravitational-wave catalog of binary mergers

5. November 2018
AEI researchers publish first open catalog of compact binary merger gravitational-wave signals in LIGO's O1 data [mehr]
Original 1542205269

More stable laser light with squeezing

22. Oktober 2018
AEI researchers show how to improve laser power stability by the injection of a squeezed vacuum [mehr]
Teaser 1539638686

GW170817 revisited

15. Oktober 2018
Updated Analysis of GW170817 by the LIGO and Virgo Collaboration places tight constraints on the neutron star equation of state. [mehr]
Original 1548757099

A radiative transfer simulation for the GW170817 kilonova

27. September 2018
Study shows how consistently taking into account the interplay of ejecta components naturally reproduces observed lightcurves and photospheric velocity [mehr]
Original 1550235990

What shadow does a binary black hole cast?

31. August 2018
A new and simple way to calculate shadows of dynamical binary black holes without expensive numerical-relativity computations [mehr]
Original 1548852532

New symmetries could be the reason why there are only the known constituents of matter

31. August 2018
Exploiting a coincidence with N=8 supergravity, a new study uses novel symmetries to explain why there are only the observed quarks and leptons [mehr]
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