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Top News

Milestone for Multimessenger Astronomy

First gravitational waves from colliding neutron stars observed together with electromagnetic counterparts

Artist’s illustration of two merging neutron stars. ©NSF/LIGO/Sonoma State University/A. Simonnet

Nobel Prize in Physics 2017 for Gravitational Waves

Rai Weiss, Kip THorne and Barry Barish of LIGO/Virgo Collaboration are Nobel Laureates of 2017


Good Night, LISA Pathfinder!

LISA Pathfinder has been switched off as planned on the evening of 18thof July, ending its successful mission which surpassed all expectations

LISA Pathfinder has demonstrated core elements of a spaceborne gravitational-wave observatory.

Gravitational Wave mission selected for ESA’s L3 mission

The LISA trio of satellites to detect gravitational waves from space has been selected as the third large-class mission in ESA’s Science programme

©AEI/Milde Marketing

LISA Mission proposal submitted!

In response to the call of the European Space Agency (ESA) for L3 mission concepts

Proposal Cover Image. © NASA/Simon Barke

Top News

Top News

Mission extension for LPF

LISA Pathfinder gets a six month mission extension

Artist's impression of LISA Pathfinder operating in space. ©ESA/C. Carreau

LISA Pathfinder Mission exceeds expectations

LISA Pathfinder successfully demonstrates key technologies for gravitational wave observation in space

LPF is testing technology for future gravitational-wave observatories in space. © ESA–C.Carreau

LISA Pathfinder

LISA Pathfinder

LISA Pathfinder launches successfully on 3 Dec 2015

LISA Pathfinder lifted off from Kourou on VV06

LISA Pathfinder blasts off into low-earth orbit on 3 Dec 2015. ©ESA–Stephane Corvaja, 2015

A New Astronomy

A New Astronomy

Selected: The Gravitational Universe

ESA decided on next Large Mission Concepts

ESA announced a new vision to study the invisible universe and L2 and L3 science concepts

Observing gravitational waves

Observing gravitational waves

LISA: A New Astronomy

Laser Interferometer Space Antenna

Artist's impression of LISA satellite. Credit: AEI/MM/exozet

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LISA will be a large-scale space mission designed to detect one of the most elusive phenomena in astronomy - gravitational waves. With LISA we will be able to observe the entire universe directly with gravitational waves, learning about the formation of structure and galaxies, stellar evolution, the early universe, and the structure and nature of spacetime itself.

LISA Pathfinder paves the way for the LISA mission by testing in space the very concept of gravitational wave detection. First results show that LISA Pathfinder is working to a precision five times better than required, successfully demonstrating the key technologies for a large gravitational wave observatory in space. The LISA Pathfinder mission was launched on 3rd December 2015.

LISA Pathfinder Mission Timeline

We have a Mission: One year after Lisa Pathfinder launch

Follow some of the scientists who made it happen as they recapture the exciting times of the first steps into the era of gravitational waves in space.

A year ago, on december 3rd 2015 at 04:04 GMT the Lisa Pathfinder Mission lifted off from European Space Agency's space center in Kourou, Guiana. After 10 years of designing, building and testing, LISA Pathfinder had a picture book launch on a Vega rocket which propelled the satellite into a safe low earth orbit for the following month-long journey to Lagrange point L1 about 1.5 million km from Earth. LPF went online in March and performed spectacularly, far exceeding all expectations. LISA Pathfinder created the quietest place known to humankind, demonstrating that the technology onboard is a perfect option to measure gravitational waves in outer space.