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Oct. 30, 2002Source Simulation & Data Analysis1 Gravitational-Wave Observations of Galactic Populations of Compact Binaries M. Benacquista Montana State.

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Presentation on theme: "Oct. 30, 2002Source Simulation & Data Analysis1 Gravitational-Wave Observations of Galactic Populations of Compact Binaries M. Benacquista Montana State."— Presentation transcript:

1 Oct. 30, 2002Source Simulation & Data Analysis1 Gravitational-Wave Observations of Galactic Populations of Compact Binaries M. Benacquista Montana State University-Billings NASA Cooperative Agreement NCC5-579

2 Oct. 30, 2002Source Simulation & Data Analysis2 Narrowing the Focus… With the exception of isolated neutron stars and asymmetric supernovae, almost all gravitational wave sources are populations of binaries. “…the gravitational wave signatures of much of the most exciting science that gravitational wave detection will enable cannot be described adequately by a ‘waveform’…” Confusion-limited background from galactic white dwarf binaries. (Individual waveforms cannot be discerned.) Galactic globular cluster binaries. (Individual waveforms are ‘boring’, spatial characteristics and population parameters are ‘interesting’.)

3 Oct. 30, 2002Source Simulation & Data Analysis3 Model of the binary background Bin-averaged, time-averaged, angle averaged

4 Oct. 30, 2002Source Simulation & Data Analysis4 Creating a model of the binary background Generate binaries –Initial Mass Function –Binary separation at formation –Dynamics of binary evolution Generate current period distribution –Star formation rate Generate population density –Spatial distribution of progenitors –Evolution of spatial distribution

5 Oct. 30, 2002Source Simulation & Data Analysis5 Evolutionary effects on the background model Mass distribution –Low-mass components of the binary background merge at lower frequencies and drop out of the population if they coalesce or move back down to lower frequencies if they undergo stable mass transfer –Change the shape of the high frequency tail Star formation rate –If non-uniform, it results in population spikes which will disperse as high mass components evolve more quickly.

6 Oct. 30, 2002Source Simulation & Data Analysis6 Spatial effects on the background model Population density –Confusion limit level is determined by the distance at which you have 100% probability of finding a binary in the frequency bin Scale height –If r < r o then the number of binaries grows as r 3 –If r > r o then the number of binaries grows as r 2

7 Oct. 30, 2002Source Simulation & Data Analysis7 Simulating the Binary Background Generating Binaries –Binary types from Nelemans et al. (2001) –White dwarf masses from Iben & Tutukov (1986) –Orbital period at birth from Nelemans et al. (2001) Generating current period distribution –Constant star formation rate Generating population density –Use local density of Hils, Bender, & Webbink (1990) –Use galactic spatial distribution of:  0 e -R/H sech 2 (z/h) with H = 2500 pc and h = 200 pc Create h 1 and h 2 of Cutler (1998)

8 Oct. 30, 2002Source Simulation & Data Analysis8 Spatial distribution

9 Oct. 30, 2002Source Simulation & Data Analysis9 Time-domain simulation: h 1

10 Oct. 30, 2002Source Simulation & Data Analysis10 Time-domain simulation: h 2

11 Oct. 30, 2002Source Simulation & Data Analysis11 Spectrum

12 Oct. 30, 2002Source Simulation & Data Analysis12 Compact Binaries in Globular Clusters Old populations –Lots of evolved objects (white dwarfs, neutron stars, black holes) Star formation rate is a spike –Current period distribution depends on dynamics of large N-body systems Population density is a ball –Localized to within LISA’s angular resolution

13 Oct. 30, 2002Source Simulation & Data Analysis13 NGC 104 (47 Tuc) Large, nearby globular cluster Dense core Binaries formed through dynamical encounters Lots of Chandra sources Large number of millisecond pulsars h1h1 h2h2

14 Oct. 30, 2002Source Simulation & Data Analysis14 NGC 5139 (  Cen) Largest galactic globular cluster Open core Binaries are primordial Has measurable rotation May be core of a dwarf spheroidal galaxy h1h1 h2h2

15 Oct. 30, 2002Source Simulation & Data Analysis15 NGC 6397 Nearest galactic globular cluster Probably core collapsed ~ 20 X-ray sources Evidence of mass segregation Binaries formed through dynamical encounters h1h1 h2h2

16 Oct. 30, 2002Source Simulation & Data Analysis16 NGC 6752 Nearby galactic globular cluster Core collapsed ~ 20 X-ray sources 15%-38% binary fraction in the core 5 millisecond pulsars Binaries formed through dynamical encounters h1h1 h2h2

17 Oct. 30, 2002Source Simulation & Data Analysis17 NGC 7078 (M 15) Distant galactic globular cluster May harbor an intermediate mass black hole (Gerssen et al.) May harbor a large number of compact objects (Baumgardt et al.) h1h1 h2h2

18 Oct. 30, 2002Source Simulation & Data Analysis18 Questions To what extent can the galactic binary background be identified and characterized? How well can the nature of the population of galactic white dwarf binaries be determined from the confusion limited background? Can the signal from globular cluster populations be distinguished from the confusion limited background? How can the dynamics of globular cluster evolution be determined from gravitational radiation?

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