TY - JOUR
T1 - Ultracompact X-ray binaries in globular clusters
T2 - Variability of the optical counterpart of X1832-330 in NGC 6652
AU - Deutsch, Eric W.
AU - Margon, Bruce
AU - Anderson, Scott F.
N1 - Funding Information:
RXTE ASM data products were provided by the ASM/RXTE teams at MIT and at the RXTE SOF and GOF at NASA’s GSFC. Support for this work was provided by NASA through grants NAG5-7330 and NAG5-7932 as well as grant AR-07990.01 from the STScI, which is operated by AURA, Inc.
PY - 2000/2/10
Y1 - 2000/2/10
N2 - Evidence is emerging that the luminous X-ray sources in the cores of globular clusters may often consist of, or perhaps even as a class be dominated by, ultracompact (P ≲ 1 hr) binary stars. To the two such systems already known, in NGC 6624 and NGC 6712, we now add evidence for two more. We detect large-amplitude variability in the candidate optical counterpart for the X-ray source in the core of NGC 6652. Although the available observations are relatively brief, the existing Hubble Space Telescope data indicate a strong 43.6 minute periodic modulation of the visible flux of semiamplitude 30%. Further, although the orbital period of the source in NGC 1851 is not yet explicitly measured, we demonstrate that previous correlations of optical luminosity with X-ray luminosity and accretion disk size, strengthened by recent data, strongly imply that the period of that system is also less than 1 hr. Thus, currently there is evidence that four of the seven globular cluster X-ray sources with constrained periods are ultracompact, a fraction far greater than that found in X-ray binaries the field.
AB - Evidence is emerging that the luminous X-ray sources in the cores of globular clusters may often consist of, or perhaps even as a class be dominated by, ultracompact (P ≲ 1 hr) binary stars. To the two such systems already known, in NGC 6624 and NGC 6712, we now add evidence for two more. We detect large-amplitude variability in the candidate optical counterpart for the X-ray source in the core of NGC 6652. Although the available observations are relatively brief, the existing Hubble Space Telescope data indicate a strong 43.6 minute periodic modulation of the visible flux of semiamplitude 30%. Further, although the orbital period of the source in NGC 1851 is not yet explicitly measured, we demonstrate that previous correlations of optical luminosity with X-ray luminosity and accretion disk size, strengthened by recent data, strongly imply that the period of that system is also less than 1 hr. Thus, currently there is evidence that four of the seven globular cluster X-ray sources with constrained periods are ultracompact, a fraction far greater than that found in X-ray binaries the field.
KW - Globular clusters: Individual (NGC 6652)
KW - Stars: Neutron
KW - Ultraviolet: Stars
KW - X-rays: Bursts
KW - X-rays: Stars
UR - http://www.scopus.com/inward/record.url?scp=0034628197&partnerID=8YFLogxK
U2 - 10.1086/312486
DO - 10.1086/312486
M3 - Article
AN - SCOPUS:0034628197
SN - 0004-637X
VL - 530
SP - L21-L24
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1 PART 2
ER -