Kontakt

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 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 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]
Original 1542203880

Do black hole mergers produce gravitational-wave echoes?

15. Juni 2018
AEI researchers search for echoes after black hole mergers [mehr]
Original 1548773852

High-resolution simulations of strongly magnetized binary neutron star merger remnants

15. Juni 2018
Detailed simulation of binary neutron star merger and successive formation of massive remnant and torus shows how magneto-turbulence creates viscosity [mehr]
 
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