Welcome to the Gravitation and Astrophysics Group
Our research focuses on gravitational wave astronomy, gravitational lensing and tests of
Albert Einstein's General Relativity (GR).
Although, General Relativity is a very successful theory in explaining observations
of the Universe both on the large scale and on the solar system scale, many open
questions remain. Our theoretical work investigates how to best detect deviations
from general relativity with current and planned missions, which could serve as a
motivation to formulate a general theory that unifies all fundamental forces of nature.
We are involved with several international research projects:
We are part of the
physics institute of
University of Zurich UZH.
Our offices are located at the beautiful Irchel campus in Zurich and can be found in the building 36 on the K floor. (directions)
11th International LISA Symposium
The eleventh International LISA Symposium
jointly organized by ETH Zurich and University of Zurich took place at the Irchel Campus of University of Zurich, Switzerland September 5 – 9, 2016.
Gravitational Waves - eLISA
Gravitational waves (GW) are tiny ripples in the fabric of spacetime traveling at the speed of light.
They were predicted by Einstein in 1916 as a consequence of his theory of General Relativity.
There is indirect evidence for the existence of GW (e.g. Hulse-Taylor binary), but so far they have not been directly observed.
(eLISA) is a proposed European Space Agency mission designed to directly observe and accurately measure those waves, caused by energetic events in the universe like merging massive black holes, extreme mass ratio inspirals and binaries of compact stars in our Galaxy.
Unlike any other radiation, GW can pass unhindered by intervening mass.
Detection of gravitational waves will thus add a new sense to scientists' perception of the universe and enable them to listen to a world that is invisible with light.
Testing General Relativity - STE-QUEST
(STE-QUEST) is a candidate mission for a M launch opportunity in ESA's Cosmic Vision programme.
The mission is designed to answer a range of questions in fundamental physics by performing precision measurements with high accuracy atomic sensors.
In particular, STE-QUEST would test Einstein's Equivalence Principle, which underpins the theory of General Relativity; explore the boundaries with the quantum world; and search for new fundamental constituents and interactions in the Universe.
Gravitational Lensing is the astronomical effect of the distortion of light by masses, explained by Einstein's General Relativity.
The light of a source astronomical object (like stars, quasars or galaxies) is passing though the gravitational field of a second object in the line of sight, the gravitational lens.
In the gravitational field, light rays get delayed and change direction such that their position is shifted on the observers sky.
Additionally, the resulting image can be magnified, distorted or even multiplied. On one side, these lenses can be used to study objects far away.
On the other side, the analysis of the effects on the images allow to determine the gravitational field, and thus to determine the total mass of the lens object (including dark matter).