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Electromagnetic Counterparts to Gravitational Waves

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Presentation on theme: "Electromagnetic Counterparts to Gravitational Waves"— Presentation transcript:

1 Electromagnetic Counterparts to Gravitational Waves
Mansi M. Kasliwal California Institute of Technology

2 Dawn of Gravitational Wave Astronomy
Newspaper cutting January 5, 2017 Mansi M. Kasliwal

3 Sites of r-process nucleosynthesis?
Au Pt Figure from Metzger et al. 2010, 2014 e.g. Li & Paczynski 1998, Kulkarni 2005, Roberts et al. 2011, Nakar & Piran 2011, Barnes et al. 2013, Grossman et al. 2013, Metzger et al. 2014, Kasen et al. 2016 January 5, 2017 Mansi M. Kasliwal

4 A Resurgence in TDA Discovery Engines
Optical: Evryscope, ASASSN, HATPI ZTF, CSS-II, PS, BG, ATLAS DECAM, HSC, LSST Radio: LOFAR, MWA and LWA: meter and decameter-mapping Apertif, Meerkat and Askap: decimetric mapping Infrared: SPIRITS, Palomar Gattini-IR, Polar Gattini-IR Ultra-Violet: CUTIE & ULTRASAT X-rays and Gamma-rays: Swift, Fermi, MIRAX, Lobster-ISS January 5, 2017 Mansi M. Kasliwal

5 Mansi M. Kasliwal / GROWTH
Abbott et al – LVC + EM Teams Joint Paper Mansi M. Kasliwal / GROWTH

6 Models January 5, 2017 Mansi M. Kasliwal

7 SPEED: Speed of Response Speed of Software Speed of Follow-Up
January 5, 2017 Mansi M. Kasliwal

8 Coarse Gravitational Wave Localizations
e.g. Kasliwal & Nissanke 2014, Singer et al. 2014 January 5, 2017 Mansi M. Kasliwal

9 Optical Hardware Kasliwal & Nissanke 2014 January 5, 2017
Mansi M. Kasliwal

10 Software Speed January 5, 2017 Mansi M. Kasliwal

11 Follow-Up is Key January 5, 2017 Mansi M. Kasliwal

12 GW150914: All candidates classified in 2 hours!
Kasliwal et al. 2016 January 5, 2017 Mansi M. Kasliwal

13 78951 do NOT have a quiescent stellar source
Needle in haystack candidates in subtraction images 78951 do NOT have a quiescent stellar source 15624 are detected twice and NOT asteroids 5803 pass our machine learning threshold 1007 are coincident with a nearby galaxy 13 were vetted by human scanners 8 were scheduled for follow-up spectroscopic observations 0 were associated with the gravitational wave Kasliwal et al. 2016 January 5, 2017 Mansi M. Kasliwal

14 Census of the Local Universe (CLU Galaxy Catalog)
Dave Cook 237.08 January 5, 2017 Mansi M. Kasliwal

15 BUT… What if even 2% of the neutrons fail to escape? What if the ejecta mass is small and dominated by lanthanides? What if the lifetime of the hypermassive neutron star is too short? January 5, 2017 Mansi M. Kasliwal

16 Deep I & z-band Searches
CTIO-DECAM 4m, 3 deg2 Subaru HSC 8.2m, 1.8 deg2 LSST 6.7m, 9.6 deg2 January 5, 2017 Mansi M. Kasliwal

17 BUT… What if opacities push the emission entirely in the infrared beyond 1 micron? January 5, 2017 Mansi M. Kasliwal

18 Infrared ETA (proposed)
WFCAM on UKIRT 0.16 deg2 on 3.8m VIRCAM on VISTA 0.6 deg2 on 4.1m Space Stay Tuned: 25 deg2 J-band imager at Palomar this summer! January 5, 2017 Mansi M. Kasliwal

19 Caution is the better part of valor
It could be fast It could be red It could be temporally coincident It could be next to a nearby galaxy BUT unrelated! “Spectrum is Truth” January 5, 2017 Mansi M. Kasliwal

20 Thank you January 5, 2017 Mansi M. Kasliwal

21 Mansi M. Kasliwal / GROWTH
Leo Singer Furthest z=3.29. Faintest 20 mag. Singer et al. 2013, 2015 (PhDT) Mansi M. Kasliwal / GROWTH

22 TDA in the LSST era GROWTH builds a global community ready to
contribute LSST time-domain science!

23 SPIRITS: SPitzer InfraRed Intensive Transients Survey
Cycles 10-13 1410 hours of Spitzer mid-IR 190 Galaxies x 14 epochs (PI Kasliwal) Every Year: 110 nights of near-IR imaging 66 nights of optical imaging 33 nights of spectroscopy 147 transients (35 SPRITEs) 1948 strong variables Kasliwal et al. 2016b, ApJ, submitted A New Infrared Discovery Engine?

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