Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200

M. S. O'Brien; G. Vauclair; S. D. Kawaler; T. K. Watson; D. E. Winget; R. E. Nather; M. Montgomery; A. Nitta; S. J. Kleinman; D. J. Sullivan; X. J. Jiang; T. M.K. Marar; S. Seetha; B. N. Ashoka; J. Bhattacharya; E. M. Leibowitz; S. Hemar; P. Ibbetson; B. Warner; L. Van Zyl; P. Moskalik; S. Zoła; G. Pajdosz; J. Krzesiński; N. Dolez; M. Chevreton; J. E. Solheim; T. Thomassen; S. O. Kepler; O. Giovannini; J. L. Provencal; M. A. Wood; J. C. Clemens

doi:10.1086/305290

Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200

M. S. O'Brien^*, G. Vauclair, S. D. Kawaler, T. K. Watson, D. E. Winget, R. E. Nather, M. Montgomery, A. Nitta, S. J. Kleinman, D. J. Sullivan, X. J. Jiang, T. M.K. Marar, S. Seetha, B. N. Ashoka, J. Bhattacharya, E. M. Leibowitz, S. Hemar, P. Ibbetson, B. Warner, L. Van ZylP. Moskalik, S. Zoła, G. Pajdosz, J. Krzesiński, N. Dolez, M. Chevreton, J. E. Solheim, T. Thomassen, S. O. Kepler, O. Giovannini, J. L. Provencal, M. A. Wood, J. C. Clemens

^*Corresponding author for this work

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Abstract

Observation of g-rnode pulsations in the variable pre-white dwarf (GW Virginis) stars provides a unique means to probe their interiors and to study the late stages of stellar evolution. Multisite campaigns have in several cases proved highly successful in decoding pre-white dwarf light curves. Three previous attempts to untangle the pulsation spectrum of the coolest GW Virginis star, PG 0122+200, confirmed the existence of multiple g-modes but left the fundamental period spacing and therefore the star's mass and luminosity in doubt. We present an analysis based on new observations of PG 0122 + 200 obtained during a Whole Earth Telescope (WET) campaign conducted in the fall of 1996. Although our coverage was, because of bad weather, far poorer than in previous WET campaigns, we confirm the previous result that PG 0122 + 200 rotates once in 1.6 + 0.1 days. The most likely period spacing supported by the data implies a mass of 0.69+0.03 M_⊙. Based on the best seismology we can currently do, the cooling of PG 0122 + 200 is dominated by neutrino losses. This is not true for all prewhite dwarf stars and makes PG 0122 + 200 the prime candidate for learning useful physics. Constraints placed on the cooling rate of PG 0122 + 200 by future measurement of dΠ/dt could provide a unique test of the standard theory of lepton interactions in the (experimentally unexplored) region of phase-space appropriate to pre-white dwarf interiors.

Original language	English
Pages (from-to)	458-467
Number of pages	10
Journal	Astrophysical Journal
Volume	495
Issue number	1 PART I
DOIs	https://doi.org/10.1086/305290
State	Published - 1998
Externally published	Yes

Keywords

Stars: pulsars: general
Stars: white dwarfs

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O'Brien, M. S., Vauclair, G., Kawaler, S. D., Watson, T. K., Winget, D. E., Nather, R. E., Montgomery, M., Nitta, A., Kleinman, S. J., Sullivan, D. J., Jiang, X. J., Marar, T. M. K., Seetha, S., Ashoka, B. N., Bhattacharya, J., Leibowitz, E. M., Hemar, S., Ibbetson, P., Warner, B., ... Clemens, J. C. (1998). Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200. Astrophysical Journal, 495(1 PART I), 458-467. https://doi.org/10.1086/305290

@article{682d0cc91f504e60917e1fdea99af7d5,

title = "Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200",

abstract = "Observation of g-rnode pulsations in the variable pre-white dwarf (GW Virginis) stars provides a unique means to probe their interiors and to study the late stages of stellar evolution. Multisite campaigns have in several cases proved highly successful in decoding pre-white dwarf light curves. Three previous attempts to untangle the pulsation spectrum of the coolest GW Virginis star, PG 0122+200, confirmed the existence of multiple g-modes but left the fundamental period spacing and therefore the star's mass and luminosity in doubt. We present an analysis based on new observations of PG 0122 + 200 obtained during a Whole Earth Telescope (WET) campaign conducted in the fall of 1996. Although our coverage was, because of bad weather, far poorer than in previous WET campaigns, we confirm the previous result that PG 0122 + 200 rotates once in 1.6 + 0.1 days. The most likely period spacing supported by the data implies a mass of 0.69+0.03 M⊙. Based on the best seismology we can currently do, the cooling of PG 0122 + 200 is dominated by neutrino losses. This is not true for all prewhite dwarf stars and makes PG 0122 + 200 the prime candidate for learning useful physics. Constraints placed on the cooling rate of PG 0122 + 200 by future measurement of dΠ/dt could provide a unique test of the standard theory of lepton interactions in the (experimentally unexplored) region of phase-space appropriate to pre-white dwarf interiors.",

keywords = "Stars: pulsars: general, Stars: white dwarfs",

author = "O'Brien, {M. S.} and G. Vauclair and Kawaler, {S. D.} and Watson, {T. K.} and Winget, {D. E.} and Nather, {R. E.} and M. Montgomery and A. Nitta and Kleinman, {S. J.} and Sullivan, {D. J.} and Jiang, {X. J.} and Marar, {T. M.K.} and S. Seetha and Ashoka, {B. N.} and J. Bhattacharya and Leibowitz, {E. M.} and S. Hemar and P. Ibbetson and B. Warner and {Van Zyl}, L. and P. Moskalik and S. Zo{\l}a and G. Pajdosz and J. Krzesi{\'n}ski and N. Dolez and M. Chevreton and Solheim, {J. E.} and T. Thomassen and Kepler, {S. O.} and O. Giovannini and Provencal, {J. L.} and Wood, {M. A.} and Clemens, {J. C.}",

year = "1998",

doi = "10.1086/305290",

language = "אנגלית",

volume = "495",

pages = "458--467",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1 PART I",

}

O'Brien, MS, Vauclair, G, Kawaler, SD, Watson, TK, Winget, DE, Nather, RE, Montgomery, M, Nitta, A, Kleinman, SJ, Sullivan, DJ, Jiang, XJ, Marar, TMK, Seetha, S, Ashoka, BN, Bhattacharya, J, Leibowitz, EM, Hemar, S, Ibbetson, P, Warner, B, Van Zyl, L, Moskalik, P, Zoła, S, Pajdosz, G, Krzesiński, J, Dolez, N, Chevreton, M, Solheim, JE, Thomassen, T, Kepler, SO, Giovannini, O, Provencal, JL, Wood, MA & Clemens, JC 1998, 'Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200', Astrophysical Journal, vol. 495, no. 1 PART I, pp. 458-467. https://doi.org/10.1086/305290

TY - JOUR

T1 - Asteroseismology of a star cooled by neutrino emission

T2 - The pulsating pre-white dwarf PG 0122 + 200

AU - O'Brien, M. S.

AU - Vauclair, G.

AU - Kawaler, S. D.

AU - Watson, T. K.

AU - Winget, D. E.

AU - Nather, R. E.

AU - Montgomery, M.

AU - Nitta, A.

AU - Kleinman, S. J.

AU - Sullivan, D. J.

AU - Jiang, X. J.

AU - Marar, T. M.K.

AU - Seetha, S.

AU - Ashoka, B. N.

AU - Bhattacharya, J.

AU - Leibowitz, E. M.

AU - Hemar, S.

AU - Ibbetson, P.

AU - Warner, B.

AU - Van Zyl, L.

AU - Moskalik, P.

AU - Zoła, S.

AU - Pajdosz, G.

AU - Krzesiński, J.

AU - Dolez, N.

AU - Chevreton, M.

AU - Solheim, J. E.

AU - Thomassen, T.

AU - Kepler, S. O.

AU - Giovannini, O.

AU - Provencal, J. L.

AU - Wood, M. A.

AU - Clemens, J. C.

PY - 1998

Y1 - 1998

N2 - Observation of g-rnode pulsations in the variable pre-white dwarf (GW Virginis) stars provides a unique means to probe their interiors and to study the late stages of stellar evolution. Multisite campaigns have in several cases proved highly successful in decoding pre-white dwarf light curves. Three previous attempts to untangle the pulsation spectrum of the coolest GW Virginis star, PG 0122+200, confirmed the existence of multiple g-modes but left the fundamental period spacing and therefore the star's mass and luminosity in doubt. We present an analysis based on new observations of PG 0122 + 200 obtained during a Whole Earth Telescope (WET) campaign conducted in the fall of 1996. Although our coverage was, because of bad weather, far poorer than in previous WET campaigns, we confirm the previous result that PG 0122 + 200 rotates once in 1.6 + 0.1 days. The most likely period spacing supported by the data implies a mass of 0.69+0.03 M⊙. Based on the best seismology we can currently do, the cooling of PG 0122 + 200 is dominated by neutrino losses. This is not true for all prewhite dwarf stars and makes PG 0122 + 200 the prime candidate for learning useful physics. Constraints placed on the cooling rate of PG 0122 + 200 by future measurement of dΠ/dt could provide a unique test of the standard theory of lepton interactions in the (experimentally unexplored) region of phase-space appropriate to pre-white dwarf interiors.

AB - Observation of g-rnode pulsations in the variable pre-white dwarf (GW Virginis) stars provides a unique means to probe their interiors and to study the late stages of stellar evolution. Multisite campaigns have in several cases proved highly successful in decoding pre-white dwarf light curves. Three previous attempts to untangle the pulsation spectrum of the coolest GW Virginis star, PG 0122+200, confirmed the existence of multiple g-modes but left the fundamental period spacing and therefore the star's mass and luminosity in doubt. We present an analysis based on new observations of PG 0122 + 200 obtained during a Whole Earth Telescope (WET) campaign conducted in the fall of 1996. Although our coverage was, because of bad weather, far poorer than in previous WET campaigns, we confirm the previous result that PG 0122 + 200 rotates once in 1.6 + 0.1 days. The most likely period spacing supported by the data implies a mass of 0.69+0.03 M⊙. Based on the best seismology we can currently do, the cooling of PG 0122 + 200 is dominated by neutrino losses. This is not true for all prewhite dwarf stars and makes PG 0122 + 200 the prime candidate for learning useful physics. Constraints placed on the cooling rate of PG 0122 + 200 by future measurement of dΠ/dt could provide a unique test of the standard theory of lepton interactions in the (experimentally unexplored) region of phase-space appropriate to pre-white dwarf interiors.

KW - Stars: pulsars: general

KW - Stars: white dwarfs

UR - http://www.scopus.com/inward/record.url?scp=22044434806&partnerID=8YFLogxK

U2 - 10.1086/305290

DO - 10.1086/305290

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AN - SCOPUS:22044434806

SN - 0004-637X

VL - 495

SP - 458

EP - 467

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1 PART I

ER -

Asteroseismology of a star cooled by neutrino emission: The pulsating pre-white dwarf PG 0122 + 200

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