LIGO-G080385-00-Z PAC - 2008-June-24AstroWatch Update -- Riles 1 AstroWatch Update Keith Riles University of Michigan LIGO PAC Meeting LIGO Hanford Observatory.

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Presentation transcript:

LIGO-G Z PAC June-24AstroWatch Update -- Riles 1 AstroWatch Update Keith Riles University of Michigan LIGO PAC Meeting LIGO Hanford Observatory June 24, 2008

LIGO-G Z PAC June-24AstroWatch Update -- Riles 2 What is AstroWatch? LIGO 4-km IFO’s and Virgo undergoing major upgrades for Enhanced LIGO / Virgo+  Hanford 2-km IFO (H2) is world’s most sensitive operational GW detector during 2008  Operate it!  Try to maintain good coverage with one or both IFOs GEO 600 also operational with good duty factor

LIGO-G Z PAC June-24AstroWatch Update -- Riles 3 Why maintain coverage? “Because we ought to” Counterarguments: Operating H2 is not free – would be unreasonable to use operators needed for ELIGO (and AdLIGO) work Once ELIGO begins, will rapidly make up for lost time  1 month of ELIGO ≥ 64 months of H2 AstroWatch (event rate scales like inverse cube of sensitivity) So why bother with AstroWatch?

LIGO-G Z PAC June-24AstroWatch Update -- Riles 4 Why maintain coverage? Inverse cube relation applies to extragalactic sources (e.g., inspiraling compact binaries) Would hate to lose once-per- generation scientific opportunity Relation does not apply to galactic sources Depending on supernova model, H2 already covers much or all of galactic disk Galactic supernovae occur ~1 / per 30 years No assurance that even AdLIGO will see one

LIGO-G Z PAC June-24AstroWatch Update -- Riles 5 Stan Whitcomb’s Nightmare… $500M Gravity Network Blows Discovery – Tinkering Scientists Miss the Big One Congressman John Dingell wants to know why a half-billion-dollar astronomical network funded by the National Science Foundation was turned off when a giant star exploded in the Milky Way last week. The influential Democrat from Michigan has called for a freeze on additional funding for the network until the NSF explains why scientists didn’t bother to keep one of three instruments running while working on improvements to the other two. “Taxpayers have spent more than $500M to fund these instruments. It is outrageous that these scientists didn’t trouble themselves to operate … Congressman calls for funding halt

LIGO-G Z PAC June-24AstroWatch Update -- Riles 6 Who is doing AstroWatch? Volunteer graduate students from the LSC AstroWatch is good training ground for students who might otherwise not touch an interferometer Builds for LSC future Instrumental experience informs analysis work Students devote ~50% effort to AstroWatch and ~50% to dissertation work or H1/H2 commissioning Housing & transportation subsidized by Observatory

LIGO-G Z PAC June-24AstroWatch Update -- Riles 7 Who is doing AstroWatch? First set of students arrived in January 2008 for training by LHO operator / trainer (Anamaria Effler) Many other LHO staff have helped in training too, especially in addressing problems after run began on February 18 Student leadership: Evan Goetz (Michigan) led initial team (end of 2-year LHO residence) Leadership now rotates ~monthly among experienced students: June – Philip Roberts (Andrews) July – Jake Slutsky (LSU) August – Pinkesh Patel (Caltech)

LIGO-G Z PAC June-24AstroWatch Update -- Riles 8 Who is doing AstroWatch? Berit Behnke (AEI)Philip Roberts (Andrews) Evan Goetz (Michigan)Jacob Slutsky (LSU) Pinkesh Patel (Caltech)Junyi Zhang (Michigan) Szymon Steplewski (WSU)Matt West (Syracuse) Adam Mullavey (ANU)Satya Mohapatra (U. Mass. Amherst) Llucia Sancho de la Jordana (U. de les Illes Balears) Miquel Trias (U. de les Illes Balears) Jericho Cain (U. Miss) 13 students volunteered to date: 9 from U.S. institutions, 4 from Europe or Australia

LIGO-G Z PAC June-24AstroWatch Update -- Riles 9 Rough month! Month by month schedule for student presence

LIGO-G Z PAC June-24AstroWatch Update -- Riles 10 AstroWatch Operations Shift scheduling depends on number of students present: ≥ 6  At least 1 shift per night (2 students on duty) < 6  Mixture of shifts and visits to site to restore lock LHO staff & visitors chip in occasionally Two modes of operation: “Science mode” (students present to sign off on data quality) “Power-up mode” (IFO at high power, but unattended or with known data quality issues, e.g., human activity near optical table)

LIGO-G Z PAC June-24AstroWatch Update -- Riles 11 AstroWatch Operations Duty factors: Science mode – 33% Power-up or science mode – 59% Archiving hours of data per day 18Feb08 to 20Jun08 Rough patch

LIGO-G Z PAC June-24AstroWatch Update -- Riles 12 AstroWatch Operations Rough patch: Students attacked problem doggedly Tough lesson at the school of hard locks Problem turned out to be obscure feature of EPICS controls system screens! (operator “lore” came to the rescue) But “good exercise” in troubleshooting (eliminating explanations) Chased many red herrings

LIGO-G Z PAC June-24AstroWatch Update -- Riles 13 AstroWatch Operations Why is “Power-up mode” legitimate to count in livetime? Scenario: Students go home at 4:00 a.m. H2 falls out of lock at 4:30 a.m., automatically reacquires lock and returns to full power by 5:00 a.m. Gravitational wave burst arrives at 5:30 a.m. Data could easily be just as good as that collected at 3:00 a.m. when scientists on duty to confirm quality But would we dare publish?

LIGO-G Z PAC June-24AstroWatch Update -- Riles 14 AstroWatch Operations Precedent: First AstroWatch run (much less formal) coincided with giant flare from SGR (magnetar) on December 27, 2004 No declaration of science mode, but data turned out to be clean Led to Physical Review D article limiting GW emission from flare – PRD 76 (2007) Yes! (maybe)

LIGO-G Z PAC June-24AstroWatch Update -- Riles 15 H2 running well, considering… Preliminary

LIGO-G Z PAC June-24AstroWatch Update -- Riles 16 H2 range varies Mpc, depending on eLIGO activity/hardware. Compares well to H1 range during SGR of ~5.7 Mpc. Preliminary AstroWatch Operations

LIGO-G Z PAC June-24AstroWatch Update -- Riles 17 AstroWatch Operations AstroWatch’s primary scientific goal (long shot): Galactic supernova watch Secondary goal (set limits on – or detect – faint but common sources): Gamma Ray Bursts (GRBs) – 51 so far since Feb in G1-H2 coincidence (science mode) 28 in G1-only time 4 in H2-only time 8 when neither detector in science mode Will likely publish only unusually energetic events (incl. SGRs) (precedent: GRB in S5 – ruled out inspiral in Andromeda – article to appear in Astrophysics Journal)

LIGO-G Z PAC June-24AstroWatch Update -- Riles 18 How is GEO doing?

LIGO-G Z PAC June-24AstroWatch Update -- Riles 19 How is GEO doing? Typically exceeds goal of 80% duty factor

LIGO-G Z PAC June-24AstroWatch Update -- Riles 20 Prototype Online Analysis Sample output from “Q online” search pipeline looking at coincident H2-GEO triggers Good preparation for S6 Search groups, detector characterization, and software working groups ramping up to do ELIGO analysis in near real-time AstroWatch will serve as proving ground

LIGO-G Z PAC June-24AstroWatch Update -- Riles 21 Summary AstroWatch succeeding – maintaining decent duty factors for H2 and GEO, all things considered Hoping for discovery Addressing obligation to astronomy community (& taxpayers!) to maintain reasonable coverage Serving as testbed for ambitious online analysis in ELIGO LSC aspires to issue astronomical alerts to SWIFT, ROTSE, etc. Enlarging community of IFO-savvy LSC scientists – good for GW field’s future But more student manpower could raise duty factor further in coming months (especially some months!)