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SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.QUANTUM MECHANICS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. PFEIFFER WINS BESSEL AWARD The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos.SINGULARITY
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. Home The Science- Relativity-- The Disputed Center of the Universe-- Einstein's Point of View-- The Moving Point of View-- Curving Space and Time-- Geodesics-- The Warped Point of View- Gravitational Wave Astronomy-- Gravitational Waves-- Sources of Gravitational Waves--- Compact Objects--- The First Moments--- Exotic Possibilities--- The Unknown-- A Totally New Kind of Astronomy-- A Totally New Kind of Observatory-- GW1509014: LIGO Detects Gravitational Waves-- Needles in the Haystack- Compact Objects-- White Dwarfs-- Neutron Stars and Pulsars-- Black Holes-- Compact Binaries-- Extreme Mass-Ratio Inspirals-- Collapsing Stars and Supernovae-- Black Holes and Neutron Stars- Numerical Relativity-- Einstein's Equations-- Why Numerical Relativity?-- Computer Simulations-- Gravitational Lensing Explore- Movies- Sounds- FAQ- Glossary- Downloads- Further Explorations About SXS- SXS News & Updates- Our Motivation- People- Our Institutions- SXS Code of Conduct- About This Site- Sitemap For Researchers- Waveform Catalog- Surrogate Waveforms- Simulations - Highlights- Initial Data- Spectral Einstein Code- Useful Links- Our Institutions Contact Us* Home
* The Science
* Relativity
* The Disputed Center of the Universe_An Ancient Struggle to Exaltthe Earth_
* Einstein's Point of View_The Struggle Lost, Einstein PushesFurther_
* The Moving Point of View_Where “now” depends on how fastyou're moving _
* Curving Space and Time_Warping Slices of Reality_ * Geodesics_The Straightest Lines in Curved Space & Time_ * The Warped Point of View_Where “now” depends on how heavy youare_
* Gravitational Wave Astronomy * Gravitational Waves_Ripples in the Fabric of Space Time_ * Sources of Gravitational Waves_Stirring Up the Ripples _* Compact Objects
* The First Moments_The Birth of the Universe_ * Exotic Possibilities_Objects that physicists are just beginning toimagine_
* The Unknown_Undiscovered marvels await_ * A Totally New Kind of Astronomy_A Different Perspective on theUniverse _
* A Totally New Kind of Observatory_Measuring the Tiniest of Fluctuations in Spacetime_ * GW1509014: LIGO Detects Gravitational Waves * Needles in the Haystack_Hearing the Cosmic Symphony_* Compact Objects
* White Dwarfs_The Oldest and Coldest of Stars_ * Neutron Stars and Pulsars_The Beacons of the Universe_ * Black Holes_The Very End of Space and Time_ * Compact Binaries_Pairs of Stars Locked in a Mad, Whirling Dance_ * Extreme Mass-Ratio Inspirals_An Elegant Pas de Deux_ * Collapsing Stars and Supernovae_The Death Throes of Stars_ * Black Holes and Neutron Stars_Matter meets vacuum in a mostdramatic fashion_
* Numerical Relativity * Einstein's Equations_Describing How Mass Warps Spacetime_ * Why Numerical Relativity?_Calculating Physics_ * Computer Simulations_Giving the Problem to a Computer_ * Gravitational Lensing* Explore
* Movies
* Sounds
* FAQ
* Glossary
* Downloads
* Further Explorations* About SXS
* SXS News & Updates* Our Motivation
* People
* Our Institutions
* SXS Code of Conduct* About This Site
* Sitemap
* For Researchers
* Waveform Catalog
* Surrogate Waveforms * Simulations - Highlights* Initial Data
* Spectral Einstein Code* Useful Links
* Our Institutions
* Contact Us
Search...
*
Ready?
the SCIENCE
~ four main areas we study ~*
RELATIVITY
Einstein's Version of the Laws of Physics Read MoreRelativity
*
GRAVITATIONAL
WAVES
Ripples in the Fabric of Space Time Read MoreGravitational Waves
*
COMPACT
OBJECTS
The End Points of Stellar Evolution Read MoreCompact Objects
*
NUMERICAL
RELATIVITY
Giving the Problem to a Computer Read More Numerical Relativity GW1509014: LIGO DETECTS GRAVITATIONAL WAVES * Details Created on Tuesday, 09 February 2016 16:29 On 14 September 2015 at 4:50:45 AM Eastern standard time, LIGO detected its first gravitational waves. The waves
descended on Earth from the southern hemisphere, passed through the Earth, and emerged at the Earth's surface first at the LIGO interferometer in Livingston, Louisiana, and then, 7 milliseconds later, at the LIGO interferometer in Hanford, Washington (shownbelow).
Read more...
TIDAL EFFECTS IN NEUTRON STAR-COMPACT OBJECT BINARIES * Details Created on Monday, 01 February 2016 18:40 To detect and characterize gravitational waves from neutron star binaries, LIGO needs good models of all possible signals. Numerical relativity can't practically be used for every case, but it is needed to test and calibrate the simpler models that LIGO can use. Inspiral waveforms from binaries with neutron stars differ from binary black hole waveforms by the presence of tidal forces. In a recent paper (http://arxiv.org/abs/1602.00599), Tanja Hinderer and collaborators use SXS black hole-neutron star simulations to validate a new model of these tidal forces. They find that tidal effects can be stronger than previously expected when they come close to resonance with a neutron star's preferred ways of ringing (its normal modes of oscillation). EXPLORE THE SCIENCE OF SXS > Come, you lost Atoms, to your Centre draw, > And be the Eternal Mirror that you saw: > Rays that have wander'd into Darkness wide, > Return and back into your Sun subside.>
> From Farid al-Din Attar's twelfth-century masterpiece > _The Conference of the Birds_ABOUT SXS
The SXS project is a collaborative research effort involving multiple institutions. Our goal is the simulation of black holes and other extreme spacetimes to gain a better understanding of Relativity, and the physics of exotic objects in the distant cosmos. The SXS project is supported by Canada Research Chairs, CFI, CIfAR, Compute Canada, Max Planck Society, NASA , NSERC, the NSF , Ontario MEDI, the Sherman Fairchild Foundation,
and XSEDE.
OUR LATEST TWEET
Latest paper published by the SXS project, hot off the press: https://t.co/8cXJBC9oRg SXS Project 20 days ago Copyright © Simulating eXtreme Spacetimes . Some rights reserved. | Web design ©
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Gravitational Wave
A gravitational disturbance that travels through space like a wave. This type of wave is analogous to an Electromagnetic Wave. Gravitational waves are given off by most movements of anything with mass. Usually, however, they are quite difficult to detect. Physicists are currently working hard to directly detect gravitational waves. Experiments like LIGO and LISA are designed for this purpose.Interferometer
A scientific device which makes use of the Interference of waves — typically, light waves. This type of device can measure changes in length with extraordinary precision, and forms the basis of modern gravitational wave detectors.Details
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