Searching Ultra-compact Pulsar Binaries with Abnormal Timing Behavior

Searching Ultra-compact Pulsar Binaries with Abnormal Timing Behavior

Ultra-compact pulsar binaries are both ideal sources of gravitational radiation for gravitational wave detectors and laboratories for fundamental physics. However, the shortest orbital period of all radio pulsar binaries is currently 1.6 hr. The absence of pulsar binaries with a shorter orbital peri...

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Veröffentlicht in:The Astrophysical journal 2018-03, Vol.855 (1), p.35
Hauptverfasser: Gong, B. P., Li, Y. P., Yuan, J. P., Tian, J., Zhang, Y. Y., Li, D., Jiang, B., Li, X. D., Wang, H. G., Zou, Y. C., Shao, L. J.
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Astrophysics
binaries: general
Binary stars
Companion stars
Computer simulation
Dwarf stars
Gravitational waves
Gravity waves
Noise prediction
Optical counterparts (astronomy)
Orbital elements
Orbits
Pulsars
pulsars: individual (PSR B0919+06)
Radiation
Searching
Tidal effects
White dwarf stars
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container_issue 1
container_start_page 35
container_title The Astrophysical journal
container_volume 855
creator Gong, B. P.
Li, Y. P.
Yuan, J. P.
Tian, J.
Zhang, Y. Y.
Li, D.
Jiang, B.
Li, X. D.
Wang, H. G.
Zou, Y. C.
Shao, L. J.
description Ultra-compact pulsar binaries are both ideal sources of gravitational radiation for gravitational wave detectors and laboratories for fundamental physics. However, the shortest orbital period of all radio pulsar binaries is currently 1.6 hr. The absence of pulsar binaries with a shorter orbital period is most likely due to technique limit. This paper points out that a tidal effect occurring on pulsar binaries with a short orbital period can perturb the orbital elements and result in a significant change in orbital modulation, which dramatically reduces the sensitivity of the acceleration searching that is widely used. Here a new search is proposed. The abnormal timing residual exhibited in a single pulse observation is simulated by a tidal effect occurring on an ultra-compact binary. The reproduction of the main features represented by the sharp peaks displayed in the abnormal timing behavior suggests that pulsars like PSR B0919+06 could be a candidate for an ultra-compact binary of an orbital period of ∼10 minutes and a companion star of a white dwarf star. The binary nature of such a candidate is further tested by (1) comparing the predicted long-term binary effect with decades of timing noise observed and (2) observing the optical counterpart of the expected companion star. Test (1) likely supports our model, while more observations are needed in test (2). Some interesting ultra-compact binaries could be found in the near future by applying such a new approach to other binary candidates.
doi_str_mv 10.3847/1538-4357/aaac34
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P. ; Li, Y. P. ; Yuan, J. P. ; Tian, J. ; Zhang, Y. Y. ; Li, D. ; Jiang, B. ; Li, X. D. ; Wang, H. G. ; Zou, Y. C. ; Shao, L. J.</creator><creatorcontrib>Gong, B. P. ; Li, Y. P. ; Yuan, J. P. ; Tian, J. ; Zhang, Y. Y. ; Li, D. ; Jiang, B. ; Li, X. D. ; Wang, H. G. ; Zou, Y. C. ; Shao, L. J.</creatorcontrib><description>Ultra-compact pulsar binaries are both ideal sources of gravitational radiation for gravitational wave detectors and laboratories for fundamental physics. However, the shortest orbital period of all radio pulsar binaries is currently 1.6 hr. The absence of pulsar binaries with a shorter orbital period is most likely due to technique limit. This paper points out that a tidal effect occurring on pulsar binaries with a short orbital period can perturb the orbital elements and result in a significant change in orbital modulation, which dramatically reduces the sensitivity of the acceleration searching that is widely used. Here a new search is proposed. The abnormal timing residual exhibited in a single pulse observation is simulated by a tidal effect occurring on an ultra-compact binary. The reproduction of the main features represented by the sharp peaks displayed in the abnormal timing behavior suggests that pulsars like PSR B0919+06 could be a candidate for an ultra-compact binary of an orbital period of ∼10 minutes and a companion star of a white dwarf star. The binary nature of such a candidate is further tested by (1) comparing the predicted long-term binary effect with decades of timing noise observed and (2) observing the optical counterpart of the expected companion star. Test (1) likely supports our model, while more observations are needed in test (2). 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This paper points out that a tidal effect occurring on pulsar binaries with a short orbital period can perturb the orbital elements and result in a significant change in orbital modulation, which dramatically reduces the sensitivity of the acceleration searching that is widely used. Here a new search is proposed. The abnormal timing residual exhibited in a single pulse observation is simulated by a tidal effect occurring on an ultra-compact binary. The reproduction of the main features represented by the sharp peaks displayed in the abnormal timing behavior suggests that pulsars like PSR B0919+06 could be a candidate for an ultra-compact binary of an orbital period of ∼10 minutes and a companion star of a white dwarf star. The binary nature of such a candidate is further tested by (1) comparing the predicted long-term binary effect with decades of timing noise observed and (2) observing the optical counterpart of the expected companion star. Test (1) likely supports our model, while more observations are needed in test (2). 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subjects Acceleration
Astrophysics
binaries: general
Binary stars
Companion stars
Computer simulation
Dwarf stars
Gravitational waves
Gravity waves
Noise prediction
Optical counterparts (astronomy)
Orbital elements
Orbits
Pulsars
pulsars: individual (PSR B0919+06)
Radiation
Searching
Tidal effects
White dwarf stars
title Searching Ultra-compact Pulsar Binaries with Abnormal Timing Behavior
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