Presentation is loading. Please wait.

Presentation is loading. Please wait.

LIGO-G060230-00-Z Expanding Horizons: Yours. Mine. The Universe’s Dr. Michael Landry LIGO Hanford Observatory California Institute of Technology Supernova.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "LIGO-G060230-00-Z Expanding Horizons: Yours. Mine. The Universe’s Dr. Michael Landry LIGO Hanford Observatory California Institute of Technology Supernova."— Presentation transcript:

1 LIGO-G060230-00-Z Expanding Horizons: Yours. Mine. The Universe’s Dr. Michael Landry LIGO Hanford Observatory California Institute of Technology Supernova remnant Cas A Credit: NASA/CXC/GSFC/U. Hwang et al.

2 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20062 What this talk is about Physics and physicists Cool stuff about gravity, curved space, and some of the most violent events in the universe Cool women physicists that I have the privilege to know and work with

3 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20063 What this talk is about LIGO Observatory: instruments for the detection of gravitational waves

4 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20064 What might the sky look like in gravitational waves?

5 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20065 Gravitational waves Gravitational waves are ripples in space when it is stirred up by rapid motions of large concentrations of matter or energy Rendering of space stirred by two orbiting neutron stars:

6 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20066 It’s space that expands and contracts

7 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20067 Go figure: space is curved Not only the path of matter, but even the path of light is affected by gravity from massive objects Einstein Cross Photo credit: NASA and ESA A massive object shifts apparent position of a star

8 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20068 The effect of gravitational waves Gravitational waves shrink space along one axis perpendicular to the wave direction as they stretch space along another axis perpendicular both to the shrink axis and to the wave direction.

9 LIGO-G060230-00-Z Expanding Your Horizons Workshop 20069 What can make gravitational waves? Stars live… Stars die… And sometimes they leave good-looking corpses… (supernova) (ordinary star) (black holes) (pulsars, neutron stars)

10 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200610 Supernova: death of a massive star Spacequake should preceed optical display by ½ day Leaves behind compact stellar core, e.g., neutron star, black hole Strength of waves depends on asymmetry in collapse Observed neutron star motions indicate some asymmetry present Simulations do not succeed from initiation to explosions Credit: Dana Berry, NASA

11 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200611 Supernova: Death of a Massive Star Spacequake should preceed optical display by ½ day Leaves behind compact stellar core, e.g., neutron star, black hole Strength of waves depends on asymmetry in collapse Observed neutron star motions indicate some asymmetry present Simulations do not succeed from initiation to explosions Credit: Dana Berry, NASA

12 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200612 Dr. Laura Cadonati Born Bergamo, Italy Research scientist, MIT Specializes in data analysis for “burst” signals, such as may be given off by supernovae Prior to LIGO : work in the field of particle physics Hobbies include quilting, reading, movies, hiking Supernovae specialist

13 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200613 The “Undead” corpses of stars: neutron stars and black holes Neutron stars have a mass equivalent to 1.4 suns packed into a ball 10 miles in diameter, enormous magnetic fields and high spin rates Black holes are the extreme edges of the space-time fabric Artist: Walt Feimer, Space Telescope Science Institute

14 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200614 The “Undead” Corpses of Stars: Neutron Stars and Black Holes Neutron stars have a mass equivalent to 1.4 suns packed into a ball 10 miles in diameter, enormous magnetic fields and high spin rates Black holes are the extreme edges of the space-time fabric Artist: Walt Feimer, Space Telescope Science Institute

15 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200615 Neutron stars with an ordinary companion Like a figure skater pulling her arms in, neutron stars spin faster when they accrete matter from a companion Observed neutron star spins “max out” at ~700 times/second Gravitational waves are suspected to balance angular momentum from accreting matter Credit: Dana Berry, NASA

16 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200616 Gravitational-Wave Emission May be the “Regulator” for Accreting Neutron Stars Neutron stars spin up when they accrete matter from a companion Observed neutron star spins “max out” at ~700 Hz Gravitational waves are suspected to balance angular momentum from accreting matter Credit: Dana Berry, NASA

17 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200617 Dr. Marialessandra Papa Born Rome, Italy Senior Scientist, UWM/AEI Data Analysis chair GEO & LIGO, leads pulsar group Specializes in analyses of data for gravitational waves from spinning neutron stars Hobbies include dance, jazz and choral singing, cooking Pulsar specialist

18 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200618 Sounds of compact star inspirals Neutron-star binary inspiral: Black-hole binary inspiral:

19 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200619 Dr. Gabriela González Born Cordoba, Argentina Associate Professor of Physics, LSU Design and implementation of many key subsystems of the Livingston interferometer Work on calibration: just how small a motion can we detect? Leads a group searching for binary inspirals Binary star specialist

20 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200620 Laser Beam Splitter End Mirror Screen Viewing Sketch of a Michelson interferometer

21 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200621 Sensing the effect of a gravitational wave Laser signal Gravitational wave changes arm lengths and amount of light in signal Change in arm length is 10 -18 meters, or about 2/10,000,000,000,000,000 inches

22 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200622 How small is 10 -18 meter? Wavelength of light, about 1 micron One meter, about 40 inches Human hair, about 100 microns LIGO sensitivity, 10 -18 meter Nuclear diameter, 10 -15 meter Atomic diameter, 10 -10 meter

23 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200623 Dr. Nergis Mavalvala Born Karachi, Pakistan Professor of Physics, MIT Experimental gravitational wave detection and quantum measurement Design and implementation of many of the key subsystems that make our current detectors run so sensitively cycling, running, squash, political activism interferometer specialist

24 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200624 LIGO (Washington)LIGO (Louisiana) The Laser Interferometer Gravitational-Wave Observatory Brought to you by the National Science Foundation; operated by Caltech and MIT; the research focus for more than 500 LIGO Scientific Collaboration members worldwide.

25 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200625 The LIGO Observatories Adapted from “The Blue Marble: Land Surface, Ocean Color and Sea Ice” at visibleearth.nasa.gov NASA Goddard Space Flight Center Image by Reto Stöckli (land surface, shallow water, clouds). Enhancements by Robert Simmon (ocean color, compositing, 3D globes, animation). Data and technical support: MODIS Land Group; MODIS Science Data Support Team; MODIS Atmosphere Group; MODIS Ocean Group Additional data: USGS EROS Data Center (topography); USGS Terrestrial Remote Sensing Flagstaff Field Center (Antarctica); Defense Meteorological Satellite Program (city lights). LIGO Hanford Observatory (LHO) H1 : 4 km arms H2 : 2 km arms LIGO Livingston Observatory (LLO) L1 : 4 km arms 10 ms

26 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200626 Betsy Bland Born Portland, OR Operator/Assistant Engineer, LIGO Hanford Observatory Works on operations and controls of interferometers, installed most of the key optics in the detectors Husband Mack, son Theo (2), enjoy boating on the Columbia optics specialist

27 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200627 Part of future international detector network LIGO Simultaneously detect signal (within msec) detection confidence locate the sources decompose the polarization of gravitational waves GEO Virgo TAMA AIGO

28 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200628 Vacuum chambers: quiet homes for mirrors View inside Corner Station Standing at vertex beam splitter

29 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200629 Core Optics Local sensors/actuators provide damping and control forces Mirror is balanced on 1/100 th inch diameter wire to 1/100 th degree of arc Optics suspended as simple pendulums

30 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200630 Cheryl Vorvick Born Vancouver, Canada, raised in Seattle Operator at LIGO Hanford Observatory Works in interferometer operations, specializes in laser thermal compensation Hobbies include drawing and sailing NASA internship: Star Spangled Banner composite image used by Polo Ralph Lauren laser specialist

31 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200631 Einstein@home http://einstein.phys.uwm.edu/ Like SETI@home, but for LIGO/GEO data Goal: pulsar searches using ~1 million clients. Support for Windows, Mac OSX, Linux clients From our own clusters we can get thousands of CPUs. From Einstein@home hope to many times more computing power at low cost Public Launch date: Feb 19, 2005

32 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200632 Why ask for volunteers? e.g. searching 1 year of data, you have 3 billion frequencies in a 1000Hz band For each frequency we need to search 100 million million independent sky positions pulsars spin down, so you have to consider approximately one billion times more “guesses” at the signal Number of templates for each frequency: ~100,000,000,000,000,000,000,000 Clearly we rapidly become limited in the analysis we can do by the speed of our computer! Einstein@home!!! a.k.a. Distributed computing

33 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200633 Quinn Simone Landry Born May 19, 2006 in Richland WA, about 19 hours ago ??? nursing specialist

34 LIGO-G060230-00-Z Expanding Your Horizons Workshop 200634 On the horizon LIGO is searching for gravitational waves; this or future experiments should find them Humbling fact: we have little idea of what 96% of the universe is made of »4% ordinary matter »about 26% dark matter (ghostly particles? Failed stars?) »About 70% “dark energy”, looks kind of like antigravity, and is completely mysterious Experiments on the horizon will reveal the nature of gravitational waves, dark matter, dark energy, and many other key questions of science: plenty of help needed! If this interests you: talk to teachers, scientists. Get an internship: do interesting things and meet fascinating people. Take college and university courses in math, physics, engineering…

Download ppt "LIGO-G060230-00-Z Expanding Horizons: Yours. Mine. The Universe’s Dr. Michael Landry LIGO Hanford Observatory California Institute of Technology Supernova."

Similar presentations

Dennis Ugolini, Trinity University Bite of Science Session, TEP 2014 February 13, 2014 Catching the Gravitational Waves.

Dennis Ugolini, Trinity University Bite of Science Session, TEP 2014 February 13, 2014 Catching the Gravitational Waves.
1 Einstein's Legacy: General Relativity, our Best Description of the Universe Barry C. Barish Caltech AAAS 20-Feb-05 LIGO-xxx Crab Pulsar.

1 Einstein's Legacy: General Relativity, our Best Description of the Universe Barry C. Barish Caltech AAAS 20-Feb-05 LIGO-xxx Crab Pulsar.
Stellar Deaths II Neutron Stars and Black Holes 17.

Stellar Deaths II Neutron Stars and Black Holes 17.
A SEARCH FOR GRAVITATIONAL WAVES FROM INSPIRALING NEUTRON STARS AND BLACK HOLES Using data taken between July 2009 and October 2010, researchers from the.

A SEARCH FOR GRAVITATIONAL WAVES FROM INSPIRALING NEUTRON STARS AND BLACK HOLES Using data taken between July 2009 and October 2010, researchers from the.
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.
Neutron Stars and Black Holes

Neutron Stars and Black Holes
A NEW FACE FOR THE EARTH ECOLOGY AND ART E n v i r o n m e n t a n d A r t.

A NEW FACE FOR THE EARTH ECOLOGY AND ART E n v i r o n m e n t a n d A r t.
LIGO-G020518-02-W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.

LIGO-G W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.
LIGO-G060033-00-W Colliding Black Holes Credit: National Center for Supercomputing Applications (NCSA) LIGO for Chemists Fred Raab, LIGO Hanford Observatory.

LIGO-G W "Colliding Black Holes" Credit: National Center for Supercomputing Applications (NCSA) LIGO for Chemists Fred Raab, LIGO Hanford Observatory.
1 Science Opportunities for Australia Advanced LIGO Barry Barish Director, LIGO Canberra, Australia 16-Sept-03 LIGO-G030506-00-M.

1 Science Opportunities for Australia Advanced LIGO Barry Barish Director, LIGO Canberra, Australia 16-Sept-03 LIGO-G M.
LIGO-G010072-00-W LIGO: The Portal to Spacetime Frederick J. Raab, Ph.D. Head, LIGO Hanford Observatory.

LIGO-G W LIGO: The Portal to Spacetime Frederick J. Raab, Ph.D. Head, LIGO Hanford Observatory.
1 Welcome to LIGO!. What Does the Universe Look Like? 2.

1 Welcome to LIGO!. What Does the Universe Look Like? 2.
LIGO-G020518-01-W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.

LIGO-G W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.
LIGO-G020518-01-W Measuring Ripples in the Geometry of Space Fred Raab LIGO Hanford Observatory.

LIGO-G W Measuring Ripples in the Geometry of Space Fred Raab LIGO Hanford Observatory.
LIGO Hanford Observatory

LIGO Hanford Observatory
LIGO-G050002-00-Z how to find gravity waves with your home PC Michael Landry LIGO Hanford Observatory California Institute of Technology.

LIGO-G Z how to find gravity waves with your home PC Michael Landry LIGO Hanford Observatory California Institute of Technology.
LIGO-G020518-01-W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.

LIGO-G W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.
2/9/2006Welcome to LIGO1 Welcome to LIGO!. 2/9/2006Welcome to LIGO2 LIGO: A detector that measures very tiny displacements How tiny? 0. 0 0 0 0 0 0 0.

2/9/2006Welcome to LIGO1 Welcome to LIGO!. 2/9/2006Welcome to LIGO2 LIGO: A detector that measures very tiny displacements How tiny?
The LIGO Project ( Laser Interferometer Gravitational-Wave Observatory) Rick Savage - LIGO Hanford Observatory.

The LIGO Project ( Laser Interferometer Gravitational-Wave Observatory) Rick Savage - LIGO Hanford Observatory.
LIGO-G020518-01-W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.

LIGO-G W What If We Could Listen to the Stars? Fred Raab LIGO Hanford Observatory.

Similar presentations

Ads by Google