Rapid construction of joint pulsar timing array data sets: The Lite method

B. Larsen; C. M.F. Mingarelli; P. T. Baker; J. S. Hazboun; S. Chen; L. Schult; S. R. Taylor; J. Simon; J. Antoniadis; J. Baier; R. N. Caballero; A. Chalumeau; Z. Chen; I. Cognard; D. Deb; V. Di Marco; T. Dolch; I. O. Eya; E. C. Ferrara; K. A. Gersbach; D. C. Good; H. Hu; A. Kapur; S. Kala; M. Kramer; M. T. Lam; W. G. Lamb; T. J.W. Lazio; K. Liu; Y. Liu; M. McLaughlin; D. J. Nice; B. B.P. Perera; A. Petiteau; S. M. Ransom; D. J. Reardon; C. J. Russell; G. M. Shaifullah; L. Speri; A. Srivastava; G. Theureau; J. Wang; J. Wang; L. Zhang

doi:10.1093/mnras/staf1420

Rapid construction of joint pulsar timing array data sets: The Lite method

B. Larsen
, C. M.F. Mingarelli
, P. T. Baker
, J. S. Hazboun
, S. Chen
, L. Schult
, S. R. Taylor
, J. Simon
, J. Antoniadis
, J. Baier
, R. N. Caballero
, A. Chalumeau
, Z. Chen
, I. Cognard
, D. Deb
, V. Di Marco
, T. Dolch
, I. O. Eya
, E. C. Ferrara
, K. A. Gersbach

D. C. Good, H. Hu, A. Kapur, S. Kala, M. Kramer, M. T. Lam, W. G. Lamb, T. J.W. Lazio, K. Liu, Y. Liu, M. McLaughlin, D. J. Nice, B. B.P. Perera, A. Petiteau, S. M. Ransom, D. J. Reardon, C. J. Russell, G. M. Shaifullah, L. Speri, A. Srivastava, G. Theureau, J. Wang, J. Wang, L. Zhang

Physics and Astronomy

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

Abstract

The International Pulsar Timing Array (IPTA)'s second data release (IPTA DR2) combines decades of observations of 65 millisecond pulsars from 7 radio telescopes. IPTA data sets should be the most sensitive data sets to nanohertz gravitational waves (GWs), but take years to assemble, often excluding valuable recent data. To address this, we introduce the IPTA 'Lite' analysis, where a Figure of Merit is used to select an optimal PTA data set to analyse for each pulsar, enabling immediate access to new data and preliminary results prior to full combination. We test the capabilities of the Lite analysis using IPTA DR2, finding that 'DR2 Lite' can be used to detect the common red noise process with an amplitude of at. This amplitude is slightly large in comparison to the combined analysis, and likely biased high as DR2 Lite is more sensitive to systematic errors from individual pulsars than the full data set. Furthermore, although there is no strong evidence for Hellings-Downs correlations in IPTA DR2, we still find the full data set is better at resolving Hellings-Downs correlations than DR2 Lite. Alongside the Lite analysis, we also find that analysing a subset of pulsars from IPTA DR2, available at a hypothetical 'early' stage of combination (EDR2), yields equally competitive results as the full data set. Looking ahead, the Lite method will enable rapid synthesis of the latest PTA data, offering preliminary GW constraints before the superior full data set combinations are available.

Original language	English
Pages (from-to)	3028-3048
Number of pages	21
Journal	Monthly Notices of the Royal Astronomical Society
Volume	542
Issue number	4
DOIs	https://doi.org/10.1093/mnras/staf1420
State	Published - Oct 1 2025

Keywords

gravitational waves
methods: data analysis
pulsars: general

Access to Document

10.1093/mnras/staf1420

Cite this

Larsen, B., Mingarelli, C. M. F., Baker, P. T., Hazboun, J. S., Chen, S., Schult, L., Taylor, S. R., Simon, J., Antoniadis, J., Baier, J., Caballero, R. N., Chalumeau, A., Chen, Z., Cognard, I., Deb, D., Di Marco, V., Dolch, T., Eya, I. O., Ferrara, E. C., ... Zhang, L. (2025). Rapid construction of joint pulsar timing array data sets: The Lite method. Monthly Notices of the Royal Astronomical Society, 542(4), 3028-3048. https://doi.org/10.1093/mnras/staf1420

@article{c1755fe6e2a041a3a975d12b5e56549f,

title = "Rapid construction of joint pulsar timing array data sets: The Lite method",

abstract = "The International Pulsar Timing Array (IPTA)'s second data release (IPTA DR2) combines decades of observations of 65 millisecond pulsars from 7 radio telescopes. IPTA data sets should be the most sensitive data sets to nanohertz gravitational waves (GWs), but take years to assemble, often excluding valuable recent data. To address this, we introduce the IPTA 'Lite' analysis, where a Figure of Merit is used to select an optimal PTA data set to analyse for each pulsar, enabling immediate access to new data and preliminary results prior to full combination. We test the capabilities of the Lite analysis using IPTA DR2, finding that 'DR2 Lite' can be used to detect the common red noise process with an amplitude of at. This amplitude is slightly large in comparison to the combined analysis, and likely biased high as DR2 Lite is more sensitive to systematic errors from individual pulsars than the full data set. Furthermore, although there is no strong evidence for Hellings-Downs correlations in IPTA DR2, we still find the full data set is better at resolving Hellings-Downs correlations than DR2 Lite. Alongside the Lite analysis, we also find that analysing a subset of pulsars from IPTA DR2, available at a hypothetical 'early' stage of combination (EDR2), yields equally competitive results as the full data set. Looking ahead, the Lite method will enable rapid synthesis of the latest PTA data, offering preliminary GW constraints before the superior full data set combinations are available.",

keywords = "gravitational waves, methods: data analysis, pulsars: general",

author = "B. Larsen and Mingarelli, \{C. M.F.\} and Baker, \{P. T.\} and Hazboun, \{J. S.\} and S. Chen and L. Schult and Taylor, \{S. R.\} and J. Simon and J. Antoniadis and J. Baier and Caballero, \{R. N.\} and A. Chalumeau and Z. Chen and I. Cognard and D. Deb and \{Di Marco\}, V. and T. Dolch and Eya, \{I. O.\} and Ferrara, \{E. C.\} and Gersbach, \{K. A.\} and Good, \{D. C.\} and H. Hu and A. Kapur and S. Kala and M. Kramer and Lam, \{M. T.\} and Lamb, \{W. G.\} and Lazio, \{T. J.W.\} and K. Liu and Y. Liu and M. McLaughlin and Nice, \{D. J.\} and Perera, \{B. B.P.\} and A. Petiteau and Ransom, \{S. M.\} and Reardon, \{D. J.\} and Russell, \{C. J.\} and Shaifullah, \{G. M.\} and L. Speri and A. Srivastava and G. Theureau and J. Wang and J. Wang and L. Zhang",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2025",

month = oct,

day = "1",

doi = "10.1093/mnras/staf1420",

language = "English",

volume = "542",

pages = "3028--3048",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "4",

}

Larsen, B, Mingarelli, CMF, Baker, PT, Hazboun, JS, Chen, S, Schult, L, Taylor, SR, Simon, J, Antoniadis, J, Baier, J, Caballero, RN, Chalumeau, A, Chen, Z, Cognard, I, Deb, D, Di Marco, V, Dolch, T, Eya, IO, Ferrara, EC, Gersbach, KA, Good, DC, Hu, H, Kapur, A, Kala, S, Kramer, M, Lam, MT, Lamb, WG, Lazio, TJW, Liu, K, Liu, Y, McLaughlin, M, Nice, DJ, Perera, BBP, Petiteau, A, Ransom, SM, Reardon, DJ, Russell, CJ, Shaifullah, GM, Speri, L, Srivastava, A, Theureau, G, Wang, J, Wang, J & Zhang, L 2025, 'Rapid construction of joint pulsar timing array data sets: The Lite method', Monthly Notices of the Royal Astronomical Society, vol. 542, no. 4, pp. 3028-3048. https://doi.org/10.1093/mnras/staf1420

TY - JOUR

T1 - Rapid construction of joint pulsar timing array data sets

T2 - The Lite method

AU - Larsen, B.

AU - Mingarelli, C. M.F.

AU - Baker, P. T.

AU - Hazboun, J. S.

AU - Chen, S.

AU - Schult, L.

AU - Taylor, S. R.

AU - Simon, J.

AU - Antoniadis, J.

AU - Baier, J.

AU - Caballero, R. N.

AU - Chalumeau, A.

AU - Chen, Z.

AU - Cognard, I.

AU - Deb, D.

AU - Di Marco, V.

AU - Dolch, T.

AU - Eya, I. O.

AU - Ferrara, E. C.

AU - Gersbach, K. A.

AU - Good, D. C.

AU - Hu, H.

AU - Kapur, A.

AU - Kala, S.

AU - Kramer, M.

AU - Lam, M. T.

AU - Lamb, W. G.

AU - Lazio, T. J.W.

AU - Liu, K.

AU - Liu, Y.

AU - McLaughlin, M.

AU - Nice, D. J.

AU - Perera, B. B.P.

AU - Petiteau, A.

AU - Ransom, S. M.

AU - Reardon, D. J.

AU - Russell, C. J.

AU - Shaifullah, G. M.

AU - Speri, L.

AU - Srivastava, A.

AU - Theureau, G.

AU - Wang, J.

AU - Zhang, L.

PY - 2025/10/1

Y1 - 2025/10/1

N2 - The International Pulsar Timing Array (IPTA)'s second data release (IPTA DR2) combines decades of observations of 65 millisecond pulsars from 7 radio telescopes. IPTA data sets should be the most sensitive data sets to nanohertz gravitational waves (GWs), but take years to assemble, often excluding valuable recent data. To address this, we introduce the IPTA 'Lite' analysis, where a Figure of Merit is used to select an optimal PTA data set to analyse for each pulsar, enabling immediate access to new data and preliminary results prior to full combination. We test the capabilities of the Lite analysis using IPTA DR2, finding that 'DR2 Lite' can be used to detect the common red noise process with an amplitude of at. This amplitude is slightly large in comparison to the combined analysis, and likely biased high as DR2 Lite is more sensitive to systematic errors from individual pulsars than the full data set. Furthermore, although there is no strong evidence for Hellings-Downs correlations in IPTA DR2, we still find the full data set is better at resolving Hellings-Downs correlations than DR2 Lite. Alongside the Lite analysis, we also find that analysing a subset of pulsars from IPTA DR2, available at a hypothetical 'early' stage of combination (EDR2), yields equally competitive results as the full data set. Looking ahead, the Lite method will enable rapid synthesis of the latest PTA data, offering preliminary GW constraints before the superior full data set combinations are available.

AB - The International Pulsar Timing Array (IPTA)'s second data release (IPTA DR2) combines decades of observations of 65 millisecond pulsars from 7 radio telescopes. IPTA data sets should be the most sensitive data sets to nanohertz gravitational waves (GWs), but take years to assemble, often excluding valuable recent data. To address this, we introduce the IPTA 'Lite' analysis, where a Figure of Merit is used to select an optimal PTA data set to analyse for each pulsar, enabling immediate access to new data and preliminary results prior to full combination. We test the capabilities of the Lite analysis using IPTA DR2, finding that 'DR2 Lite' can be used to detect the common red noise process with an amplitude of at. This amplitude is slightly large in comparison to the combined analysis, and likely biased high as DR2 Lite is more sensitive to systematic errors from individual pulsars than the full data set. Furthermore, although there is no strong evidence for Hellings-Downs correlations in IPTA DR2, we still find the full data set is better at resolving Hellings-Downs correlations than DR2 Lite. Alongside the Lite analysis, we also find that analysing a subset of pulsars from IPTA DR2, available at a hypothetical 'early' stage of combination (EDR2), yields equally competitive results as the full data set. Looking ahead, the Lite method will enable rapid synthesis of the latest PTA data, offering preliminary GW constraints before the superior full data set combinations are available.

KW - gravitational waves

KW - methods: data analysis

KW - pulsars: general

UR - https://www.scopus.com/pages/publications/105015406437

U2 - 10.1093/mnras/staf1420

DO - 10.1093/mnras/staf1420

M3 - Article

AN - SCOPUS:105015406437

SN - 0035-8711

VL - 542

SP - 3028

EP - 3048

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 4

ER -

Rapid construction of joint pulsar timing array data sets: The Lite method

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Keywords

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