A NICER Look at the Aql X-1 Hard State

Peter Bult; Zaven Arzoumanian; Edward M. Cackett; Deepto Chakrabarty; Keith C. Gendreau; Sebastien Guillot; Jeroen Homan; Gaurava K. Jaisawal; Laurens Keek; Steve Kenyon; Frederick K. Lamb; Renee Ludlam; Simin Mahmoodifar; Craig Markwardt; Jon M. Miller; Gregory Prigozhin; Yang Soong; Tod E. Strohmayer; Phil Uttley

doi:10.3847/2041-8213/aac2e2

A NICER Look at the Aql X-1 Hard State

Peter Bult, Zaven Arzoumanian, Edward M. Cackett, Deepto Chakrabarty, Keith C. Gendreau, Sebastien Guillot, Jeroen Homan, Gaurava K. Jaisawal, Laurens Keek, Steve Kenyon, Frederick K. Lamb, Renee Ludlam, Simin Mahmoodifar, Craig Markwardt, Jon M. Miller, Gregory Prigozhin, Yang Soong, Tod E. Strohmayer, Phil Uttley

Physics

Research output: Contribution to journal › Article › peer-review

Abstract

We report on a spectral-timing analysis of the neutron star low-mass X-ray binary (LMXB) Aql X-1 with the Neutron Star Interior Composition Explorer (NICER) on the International Space Station (ISS). Aql X-1 was observed with NICER during a dim outburst in 2017 July, collecting approximately 50 ks of good exposure. The spectral and timing properties of the source correspond to that of a (hard) extreme island state in the atoll classification. We find that the fractional amplitude of the low-frequency (<0.3 Hz) band-limited noise shows a dramatic turnover as a function of energy: it peaks at 0.5 keV with nearly 25% rms, drops to 12% rms at 2 keV, and rises to 15% rms at 10 keV. Through the analysis of covariance spectra, we demonstrate that band-limited noise exists in both the soft thermal emission and the power-law emission. Additionally, we measure hard time lags, indicating the thermal emission at 0.5 keV leads the power-law emission at 10 keV on a timescale of ∼100 ms at 0.3 Hz to ∼10 ms at 3 Hz. Our results demonstrate that the thermal emission in the hard state is intrinsically variable, and is driving the modulation of the higher energy power-law. Interpreting the thermal spectrum as disk emission, we find that our results are consistent with the disk propagation model proposed for accretion onto black holes.

Original language	English (US)
Article number	L1
Journal	Astrophysical Journal Letters
Volume	859
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/aac2e2
State	Published - May 20 2018

Keywords

accretion, accretion disks
stars: neutron
X-rays: binaries
X-rays: individual (Aql X-1)

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Online availability

10.3847/2041-8213/aac2e2

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Bult, P., Arzoumanian, Z., Cackett, E. M., Chakrabarty, D., Gendreau, K. C., Guillot, S., Homan, J., Jaisawal, G. K., Keek, L., Kenyon, S., Lamb, F. K., Ludlam, R., Mahmoodifar, S., Markwardt, C., Miller, J. M., Prigozhin, G., Soong, Y., Strohmayer, T. E., & Uttley, P. (2018). A NICER Look at the Aql X-1 Hard State. Astrophysical Journal Letters, 859(1), Article L1. https://doi.org/10.3847/2041-8213/aac2e2

Bult, P, Arzoumanian, Z, Cackett, EM, Chakrabarty, D, Gendreau, KC, Guillot, S, Homan, J, Jaisawal, GK, Keek, L, Kenyon, S, Lamb, FK, Ludlam, R, Mahmoodifar, S, Markwardt, C, Miller, JM, Prigozhin, G, Soong, Y, Strohmayer, TE & Uttley, P 2018, 'A NICER Look at the Aql X-1 Hard State', Astrophysical Journal Letters, vol. 859, no. 1, L1. https://doi.org/10.3847/2041-8213/aac2e2

@article{464ea307c71246fe97abadf6a03979cf,

title = "A NICER Look at the Aql X-1 Hard State",

abstract = "We report on a spectral-timing analysis of the neutron star low-mass X-ray binary (LMXB) Aql X-1 with the Neutron Star Interior Composition Explorer (NICER) on the International Space Station (ISS). Aql X-1 was observed with NICER during a dim outburst in 2017 July, collecting approximately 50 ks of good exposure. The spectral and timing properties of the source correspond to that of a (hard) extreme island state in the atoll classification. We find that the fractional amplitude of the low-frequency (<0.3 Hz) band-limited noise shows a dramatic turnover as a function of energy: it peaks at 0.5 keV with nearly 25% rms, drops to 12% rms at 2 keV, and rises to 15% rms at 10 keV. Through the analysis of covariance spectra, we demonstrate that band-limited noise exists in both the soft thermal emission and the power-law emission. Additionally, we measure hard time lags, indicating the thermal emission at 0.5 keV leads the power-law emission at 10 keV on a timescale of ∼100 ms at 0.3 Hz to ∼10 ms at 3 Hz. Our results demonstrate that the thermal emission in the hard state is intrinsically variable, and is driving the modulation of the higher energy power-law. Interpreting the thermal spectrum as disk emission, we find that our results are consistent with the disk propagation model proposed for accretion onto black holes.",

keywords = "accretion, accretion disks, stars: neutron, X-rays: binaries, X-rays: individual (Aql X-1)",

author = "Peter Bult and Zaven Arzoumanian and Cackett, {Edward M.} and Deepto Chakrabarty and Gendreau, {Keith C.} and Sebastien Guillot and Jeroen Homan and Jaisawal, {Gaurava K.} and Laurens Keek and Steve Kenyon and Lamb, {Frederick K.} and Renee Ludlam and Simin Mahmoodifar and Craig Markwardt and Miller, {Jon M.} and Gregory Prigozhin and Yang Soong and Strohmayer, {Tod E.} and Phil Uttley",

note = "This work was supported by NASA through the NICER mission and the Astrophysics Explorers Program, and made use of data and software provided by the High Energy Astrophysics Science Archive Research Center (HEASARC). P.B. was supported by an NPP fellowship at NASA Goddard Space Flight Center. E.M.C. gratefully acknowledges support from the National Science Foundation through CAREER award number AST-1351222. Facilities: ADS, HEASARC, NICER.",

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doi = "10.3847/2041-8213/aac2e2",

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volume = "859",

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T1 - A NICER Look at the Aql X-1 Hard State

AU - Bult, Peter

AU - Arzoumanian, Zaven

AU - Cackett, Edward M.

AU - Chakrabarty, Deepto

AU - Gendreau, Keith C.

AU - Guillot, Sebastien

AU - Homan, Jeroen

AU - Jaisawal, Gaurava K.

AU - Keek, Laurens

AU - Kenyon, Steve

AU - Lamb, Frederick K.

AU - Ludlam, Renee

AU - Mahmoodifar, Simin

AU - Markwardt, Craig

AU - Miller, Jon M.

AU - Prigozhin, Gregory

AU - Soong, Yang

AU - Strohmayer, Tod E.

AU - Uttley, Phil

N1 - This work was supported by NASA through the NICER mission and the Astrophysics Explorers Program, and made use of data and software provided by the High Energy Astrophysics Science Archive Research Center (HEASARC). P.B. was supported by an NPP fellowship at NASA Goddard Space Flight Center. E.M.C. gratefully acknowledges support from the National Science Foundation through CAREER award number AST-1351222. Facilities: ADS, HEASARC, NICER.

PY - 2018/5/20

Y1 - 2018/5/20

N2 - We report on a spectral-timing analysis of the neutron star low-mass X-ray binary (LMXB) Aql X-1 with the Neutron Star Interior Composition Explorer (NICER) on the International Space Station (ISS). Aql X-1 was observed with NICER during a dim outburst in 2017 July, collecting approximately 50 ks of good exposure. The spectral and timing properties of the source correspond to that of a (hard) extreme island state in the atoll classification. We find that the fractional amplitude of the low-frequency (<0.3 Hz) band-limited noise shows a dramatic turnover as a function of energy: it peaks at 0.5 keV with nearly 25% rms, drops to 12% rms at 2 keV, and rises to 15% rms at 10 keV. Through the analysis of covariance spectra, we demonstrate that band-limited noise exists in both the soft thermal emission and the power-law emission. Additionally, we measure hard time lags, indicating the thermal emission at 0.5 keV leads the power-law emission at 10 keV on a timescale of ∼100 ms at 0.3 Hz to ∼10 ms at 3 Hz. Our results demonstrate that the thermal emission in the hard state is intrinsically variable, and is driving the modulation of the higher energy power-law. Interpreting the thermal spectrum as disk emission, we find that our results are consistent with the disk propagation model proposed for accretion onto black holes.

AB - We report on a spectral-timing analysis of the neutron star low-mass X-ray binary (LMXB) Aql X-1 with the Neutron Star Interior Composition Explorer (NICER) on the International Space Station (ISS). Aql X-1 was observed with NICER during a dim outburst in 2017 July, collecting approximately 50 ks of good exposure. The spectral and timing properties of the source correspond to that of a (hard) extreme island state in the atoll classification. We find that the fractional amplitude of the low-frequency (<0.3 Hz) band-limited noise shows a dramatic turnover as a function of energy: it peaks at 0.5 keV with nearly 25% rms, drops to 12% rms at 2 keV, and rises to 15% rms at 10 keV. Through the analysis of covariance spectra, we demonstrate that band-limited noise exists in both the soft thermal emission and the power-law emission. Additionally, we measure hard time lags, indicating the thermal emission at 0.5 keV leads the power-law emission at 10 keV on a timescale of ∼100 ms at 0.3 Hz to ∼10 ms at 3 Hz. Our results demonstrate that the thermal emission in the hard state is intrinsically variable, and is driving the modulation of the higher energy power-law. Interpreting the thermal spectrum as disk emission, we find that our results are consistent with the disk propagation model proposed for accretion onto black holes.

KW - accretion, accretion disks

KW - stars: neutron

KW - X-rays: binaries

KW - X-rays: individual (Aql X-1)

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U2 - 10.3847/2041-8213/aac2e2

DO - 10.3847/2041-8213/aac2e2

M3 - Article

AN - SCOPUS:85047909290

SN - 2041-8205

VL - 859

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L1

ER -

A NICER Look at the Aql X-1 Hard State

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