Presentation is loading. Please wait.

Presentation is loading. Please wait.

LIGO-G070448-01-Z A directed search for gravitational waves from Cassiopeia A Karl Wette for the LIGO Scientific Collaboration Amaldi 2007, Sydney, Australia.

Published byOlivia Floyd Modified over 9 years ago

Similar presentations

Presentation on theme: "LIGO-G070448-01-Z A directed search for gravitational waves from Cassiopeia A Karl Wette for the LIGO Scientific Collaboration Amaldi 2007, Sydney, Australia."— Presentation transcript:

1 LIGO-G070448-01-Z A directed search for gravitational waves from Cassiopeia A Karl Wette for the LIGO Scientific Collaboration Amaldi 2007, Sydney, Australia Credit: X-ray: NASA/CXC/SAO; Optical: NASA/STScI; Infrared: NASA/JPL-Caltech

2 LIGO-G070448-01-Z

3 Directed searches ● Looking for continuous gravitational waves ● Sky position known from photon astronomy ● Frequency and spindown derivatives not known ● Can set indirect upper limit on gravitational waves using distance and age, also known from photon astronomy

4 LIGO-G070448-01-Z Indirect upper limit ● Assume all spindown in gravitational waves ● Age determines frequency to spindown ratio

5 LIGO-G070448-01-Z ● Is the youngest such object in our Galaxy ● Has one of highest upper limits for a known isolated compact object: ~1.2 x 10 -24 ± 10% ● We will beat indirect limit with initial LIGO over some frequency band ● More info: Ben Owen's poster Cas A is interesting because...

6 LIGO-G070448-01-Z ● Search 3-dimensional parameter space: frequency, first and second spindown ● Limits on parameter space:  Frequency: computational cost  Spindowns: age,... ● Optimal filtering algorithm (F statistic)  Coherently combines H1 and L1 data  Computational cost scales as (integration time) 7  Example: ~9 days of H1, L1 data sufficient to beat indirect limit above ~110 Hz Search algorithms

7 LIGO-G070448-01-Z Optimal parameter space tiling ● Uses parameter space metric  Improvement: use off-diagonal components ● Body-centered cubic lattice

8 LIGO-G070448-01-Z In progress ● Search running on APAC* cluster ● Parameter space divided into frequency bands ● Each jobs computes fixed number of templates ● Clocking up 1000s of CPU hours * Australian Partnership for Advanced Computing, http://nf.apac.edu.au

9 LIGO-G070448-01-Z How sensitive? ● Rough estimate based on H1,L1 noise curves

Download ppt "LIGO-G070448-01-Z A directed search for gravitational waves from Cassiopeia A Karl Wette for the LIGO Scientific Collaboration Amaldi 2007, Sydney, Australia."

Similar presentations

A walk through some statistic details of LSC results.

A walk through some statistic details of LSC results.
LIGO-G080190-00-Z Beating the spin-down limit on gravitational wave emission from the Crab pulsar Michael Landry LIGO Hanford Observatory for the LIGO.

LIGO-G Z Beating the spin-down limit on gravitational wave emission from the Crab pulsar Michael Landry LIGO Hanford Observatory for the LIGO.
Broadband Search for Continuous-Wave Gravitation Radiation with LIGO Vladimir Dergachev (University of Michigan) LIGO Scientific Collaboration APS meeting,

Broadband Search for Continuous-Wave Gravitation Radiation with LIGO Vladimir Dergachev (University of Michigan) LIGO Scientific Collaboration APS meeting,
Searches for continuous gravitational waves with LIGO and GEO600 M. Landry for the LIGO Scientific Collaboration LIGO Hanford Observatory, Richland WA.

Searches for continuous gravitational waves with LIGO and GEO600 M. Landry for the LIGO Scientific Collaboration LIGO Hanford Observatory, Richland WA.
November 2, 2006LIGO / pulsar workshop1 How LIGO searches are affected by theory & astronomical observations Ben Owen.

November 2, 2006LIGO / pulsar workshop1 How LIGO searches are affected by theory & astronomical observations Ben Owen.
Searching for pulsars using the Hough transform Badri Krishnan AEI, Golm (for the pulsar group) LSC meeting, Hanford November 2003 LIGO-G030580-00-Z.

Searching for pulsars using the Hough transform Badri Krishnan AEI, Golm (for the pulsar group) LSC meeting, Hanford November 2003 LIGO-G Z.
July 13, 2007 Robert Ward, Caltech LIGO-G070406-00-Z 1 Robert Ward for the LIGO Scientific Collaboration Amaldi 7 Sydney, Australia July 2007 A Radiometer.

July 13, 2007 Robert Ward, Caltech LIGO-G Z 1 Robert Ward for the LIGO Scientific Collaboration Amaldi 7 Sydney, Australia July 2007 A Radiometer.
LIGO Meeting 2003.11.13LIGO Scientific Collaboration - University of Wisconsin - Milwaukee LIGO-G030650-00-Z SuperComputing 2003 grid-distributed wide-area.

LIGO Meeting LIGO Scientific Collaboration - University of Wisconsin - Milwaukee LIGO-G Z SuperComputing 2003 grid-distributed wide-area.
Gravitational Wave Detectors: new eyes for physics and astronomy Gabriela González Department of Physics and Astronomy Louisiana State University.

Gravitational Wave Detectors: new eyes for physics and astronomy Gabriela González Department of Physics and Astronomy Louisiana State University.
LIGO-G050274-00-W Gregory Mendell, LIGO Hanford Observatory on behalf of the LIGO Scientific Collaboration Stackslide search for continuous gravitational.

LIGO-G W Gregory Mendell, LIGO Hanford Observatory on behalf of the LIGO Scientific Collaboration Stackslide search for continuous gravitational.
8/13/2004 Stefan Ballmer, MIT / LIGO Hanford G040339-00-0 1 Directional Stochastic Search: a Gravitational Wave Radiometer Stefan Ballmer Massachusetts.

8/13/2004 Stefan Ballmer, MIT / LIGO Hanford G Directional Stochastic Search: a Gravitational Wave Radiometer Stefan Ballmer Massachusetts.
Status of LIGO Data Analysis Gabriela González Department of Physics and Astronomy Louisiana State University for the LIGO Scientific Collaboration Dec.

Status of LIGO Data Analysis Gabriela González Department of Physics and Astronomy Louisiana State University for the LIGO Scientific Collaboration Dec.
LIGO-G030158-04-Z LIGO Scientific Collaboration 1 Upper Limits on the Rate of Gravitational Wave Bursts from the First LIGO Science Run Edward Daw Louisiana.

LIGO-G Z LIGO Scientific Collaboration 1 Upper Limits on the Rate of Gravitational Wave Bursts from the First LIGO Science Run Edward Daw Louisiana.
Searching for gravitational radiation from Scorpius X-1: Limits from the second LIGO science run Alberto Vecchio on behalf of the LIGO Scientific Collaboration.

Searching for gravitational radiation from Scorpius X-1: Limits from the second LIGO science run Alberto Vecchio on behalf of the LIGO Scientific Collaboration.
LIGO- G040230-00-D Status of LIGO Stan Whitcomb ACIGA Workshop 21 April 2004.

LIGO- G D Status of LIGO Stan Whitcomb ACIGA Workshop 21 April 2004.
LIGO-G060041-02-Z Peter Shawhan, for the LIGO Scientific Collaboration APS Meeting April 25, 2006 Search for Gravitational Wave Bursts in Data from the.

LIGO-G Z Peter Shawhan, for the LIGO Scientific Collaboration APS Meeting April 25, 2006 Search for Gravitational Wave Bursts in Data from the.
LIGO-G050646-00-Z GWDAW10, December 16, 2005 1 S3 Final Results Bruce Allen, for the LIGO Scientific Collaboration.

LIGO-G Z GWDAW10, December 16, S3 Final Results Bruce Allen, for the LIGO Scientific Collaboration.
Searching for Gravitational Waves with LIGO Andrés C. Rodríguez Louisiana State University on behalf of the LIGO Scientific Collaboration SACNAS 2006 10.27.06.

Searching for Gravitational Waves with LIGO Andrés C. Rodríguez Louisiana State University on behalf of the LIGO Scientific Collaboration SACNAS
LIGO-G050621-00-D Status of Stochastic Search with LIGO Vuk Mandic on behalf of LIGO Scientific Collaboration Caltech GWDAW-10, 12/15/05.

LIGO-G D Status of Stochastic Search with LIGO Vuk Mandic on behalf of LIGO Scientific Collaboration Caltech GWDAW-10, 12/15/05.
Amaldi-7 meeting, Sydney, Australia, July 8-14, 2007 LIGO-G070404-06-Z All-Sky Search for Gravitational Wave Bursts during the fifth LSC Science Run Igor.

Amaldi-7 meeting, Sydney, Australia, July 8-14, 2007 LIGO-G Z All-Sky Search for Gravitational Wave Bursts during the fifth LSC Science Run Igor.

Similar presentations

Ads by Google