Multi-messenger gravitational lensing

Graham P. Smith; Tessa Baker; Simon Birrer; Christine E. Collins; Jose Maria Ezquiaga; Srashti Goyal; Otto A. Hannuksela; Phurailatpam Hemanta; Martin A. Hendry; Justin Janquart; David Keitel; Andrew J. Levan; Rico K. L. Lo; Anupreeta More; Matt Nicholl; Inés Pastor-Marazuela; Andrés I. Ponte Pérez; Helena Ubach; Laura E. Uronen; Mick Wright; Miguel Zumalacarregui; Federica Bianco; Mesut Çalişkan; Juno C. L. Chan; Elena Colangeli; Benjamin P. Gompertz; Christopher P. Haines; Erin E. Hayes; Bin Hu; Gavin P. Lamb; Anna Liu; Soheb Mandhai; Harsh Narola; Quynh Lan Nguyen; Jason S. C. Poon; Dan Ryczanowski; Eungwang Seo; Anowar J. Shajib; Xikai Shan; Nial Tanvir; Luka Vujeva

doi:10.1098/rsta.2024.0134

Multi-messenger gravitational lensing

Graham P. Smith^*
, Tessa Baker
, Simon Birrer
, Christine E. Collins
, Jose Maria Ezquiaga
, Srashti Goyal
, Otto A. Hannuksela
, Phurailatpam Hemanta
, Martin A. Hendry
, Justin Janquart
, David Keitel
, Andrew J. Levan
, Rico K. L. Lo
, Anupreeta More
, Matt Nicholl
, Inés Pastor-Marazuela
, Andrés I. Ponte Pérez
, Helena Ubach
, Laura E. Uronen
, Mick Wright

Miguel Zumalacarregui, Federica Bianco, Mesut Çalişkan, Juno C. L. Chan, Elena Colangeli, Benjamin P. Gompertz, Christopher P. Haines, Erin E. Hayes, Bin Hu, Gavin P. Lamb, Anna Liu, Soheb Mandhai, Harsh Narola, Quynh Lan Nguyen, Jason S. C. Poon, Dan Ryczanowski, Eungwang Seo, Anowar J. Shajib, Xikai Shan, Nial Tanvir, Luka Vujeva

^*Corresponding author for this work

Physics and Astronomy

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

Abstract

We introduce the rapidly emerging field of multi-messenger gravitational lensing—the discovery and science of gravitationally lensed phenomena in the distant universe through the combination of multiple messengers. This is framed by gravitational lensing phenomenology that has grown since the first discoveries in the twentieth century, messengers that span 30 orders of magnitude in energy from high-energy neutrinos to gravitational waves, and powerful ‘survey facilities’ that are capable of continually scanning the sky for transient and variable sources. Within this context, the main focus is on discoveries and science that are feasible in the next 5–10 years with current and imminent technology including the LIGO–Virgo–KAGRA network of gravitational wave detectors, the Vera C. Rubin Observatory and contemporaneous gamma/X-ray satellites and radio surveys. The scientific impact of even one multi-messenger gravitational lensing discovery will be transformational and reach across fundamental physics, cosmology and astrophysics. We describe these scientific opportunities and the key challenges along the path to achieving them. This article therefore describes the consensus that emerged at the eponymous Theo Murphy meeting in March 2024, and also serves as an introduction to this Theo Murphy meeting issue.

Original language	English
Article number	20240134
Number of pages	63
Journal	Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
Volume	383
Issue number	2295
DOIs	https://doi.org/10.1098/rsta.2024.0134
Publication status	Published - 1 May 2025

Bibliographical note

This article is part of the Theo Murphy meeting issue ‘Multi-messenger gravitational lensing (Part 2)’.

Access to Document

10.1098/rsta.2024.0134Licence: Creative Commons: Attribution (CC BY)

SmithGP2025MultimessengerFinal published version, 3.95 MBLicence: Creative Commons: Attribution (CC BY)

2 Finished
2 Active

Unveiling the Local Population of Compact Binary Mergers
Gompertz, B. (Principal Investigator)
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/04/24 → 31/03/27
Project: Research Councils
UK involvement in LSST: Phase C
Smith, G. (Principal Investigator)
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/04/23 → 31/12/26
Project: Research Councils
Castor: UK - Project Linkage: BLat CatA 22 CASTOR - This is part of the Science and Exploration Bilaterals Programme (project linkage stated below)
Nicholl, M. (Co-Investigator) & McGee, S. (Principal Investigator)
SCIENCE & TECHNOLOGY FACILITIES COUNCIL, Uk Space Agency
1/01/23 → 30/09/23
Project: Other Government Departments
KilonovaRank: gravitational wave counterparts and exotic transients with next-generation surveys
Nicholl, M. (Principal Investigator)
European Commission
1/09/21 → 30/09/23
Project: EU

Cite this

Smith, G. P., Baker, T., Birrer, S., Collins, C. E., Ezquiaga, J. M., Goyal, S., Hannuksela, O. A., Hemanta, P., Hendry, M. A., Janquart, J., Keitel, D., Levan, A. J., Lo, R. K. L., More, A., Nicholl, M., Pastor-Marazuela, I., Ponte Pérez, A. I., Ubach, H., Uronen, L. E., ... Vujeva, L. (2025). Multi-messenger gravitational lensing. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences , 383(2295), Article 20240134. https://doi.org/10.1098/rsta.2024.0134

@article{04c4c9e3640f44ee96bcb9bc9d135982,

title = "Multi-messenger gravitational lensing",

abstract = "We introduce the rapidly emerging field of multi-messenger gravitational lensing—the discovery and science of gravitationally lensed phenomena in the distant universe through the combination of multiple messengers. This is framed by gravitational lensing phenomenology that has grown since the first discoveries in the twentieth century, messengers that span 30 orders of magnitude in energy from high-energy neutrinos to gravitational waves, and powerful {\textquoteleft}survey facilities{\textquoteright} that are capable of continually scanning the sky for transient and variable sources. Within this context, the main focus is on discoveries and science that are feasible in the next 5–10 years with current and imminent technology including the LIGO–Virgo–KAGRA network of gravitational wave detectors, the Vera C. Rubin Observatory and contemporaneous gamma/X-ray satellites and radio surveys. The scientific impact of even one multi-messenger gravitational lensing discovery will be transformational and reach across fundamental physics, cosmology and astrophysics. We describe these scientific opportunities and the key challenges along the path to achieving them. This article therefore describes the consensus that emerged at the eponymous Theo Murphy meeting in March 2024, and also serves as an introduction to this Theo Murphy meeting issue.",

author = "Smith, \{Graham P.\} and Tessa Baker and Simon Birrer and Collins, \{Christine E.\} and Ezquiaga, \{Jose Maria\} and Srashti Goyal and Hannuksela, \{Otto A.\} and Phurailatpam Hemanta and Hendry, \{Martin A.\} and Justin Janquart and David Keitel and Levan, \{Andrew J.\} and Lo, \{Rico K. L.\} and Anupreeta More and Matt Nicholl and In{\'e}s Pastor-Marazuela and \{Ponte P{\'e}rez\}, \{Andr{\'e}s I.\} and Helena Ubach and Uronen, \{Laura E.\} and Mick Wright and Miguel Zumalacarregui and Federica Bianco and Mesut {\c C}ali{\c s}kan and Chan, \{Juno C. L.\} and Elena Colangeli and Gompertz, \{Benjamin P.\} and Haines, \{Christopher P.\} and Hayes, \{Erin E.\} and Bin Hu and Lamb, \{Gavin P.\} and Anna Liu and Soheb Mandhai and Harsh Narola and Nguyen, \{Quynh Lan\} and Poon, \{Jason S. C.\} and Dan Ryczanowski and Eungwang Seo and Shajib, \{Anowar J.\} and Xikai Shan and Nial Tanvir and Luka Vujeva",

note = "This article is part of the Theo Murphy meeting issue {\textquoteleft}Multi-messenger gravitational lensing (Part 2){\textquoteright}.",

year = "2025",

month = may,

day = "1",

doi = "10.1098/rsta.2024.0134",

language = "English",

volume = "383",

journal = "Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences ",

issn = "0264-3952",

publisher = "The Royal Society",

number = "2295",

}

Smith, GP, Baker, T, Birrer, S, Collins, CE, Ezquiaga, JM, Goyal, S, Hannuksela, OA, Hemanta, P, Hendry, MA, Janquart, J, Keitel, D, Levan, AJ, Lo, RKL, More, A, Nicholl, M, Pastor-Marazuela, I, Ponte Pérez, AI, Ubach, H, Uronen, LE, Wright, M, Zumalacarregui, M, Bianco, F, Çalişkan, M, Chan, JCL, Colangeli, E, Gompertz, BP, Haines, CP, Hayes, EE, Hu, B, Lamb, GP, Liu, A, Mandhai, S, Narola, H, Nguyen, QL, Poon, JSC, Ryczanowski, D, Seo, E, Shajib, AJ, Shan, X, Tanvir, N & Vujeva, L 2025, 'Multi-messenger gravitational lensing', Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences , vol. 383, no. 2295, 20240134. https://doi.org/10.1098/rsta.2024.0134

TY - JOUR

T1 - Multi-messenger gravitational lensing

AU - Smith, Graham P.

AU - Baker, Tessa

AU - Birrer, Simon

AU - Collins, Christine E.

AU - Ezquiaga, Jose Maria

AU - Goyal, Srashti

AU - Hannuksela, Otto A.

AU - Hemanta, Phurailatpam

AU - Hendry, Martin A.

AU - Janquart, Justin

AU - Keitel, David

AU - Levan, Andrew J.

AU - Lo, Rico K. L.

AU - More, Anupreeta

AU - Nicholl, Matt

AU - Pastor-Marazuela, Inés

AU - Ponte Pérez, Andrés I.

AU - Ubach, Helena

AU - Uronen, Laura E.

AU - Wright, Mick

AU - Zumalacarregui, Miguel

AU - Bianco, Federica

AU - Çalişkan, Mesut

AU - Chan, Juno C. L.

AU - Colangeli, Elena

AU - Gompertz, Benjamin P.

AU - Haines, Christopher P.

AU - Hayes, Erin E.

AU - Hu, Bin

AU - Lamb, Gavin P.

AU - Liu, Anna

AU - Mandhai, Soheb

AU - Narola, Harsh

AU - Nguyen, Quynh Lan

AU - Poon, Jason S. C.

AU - Ryczanowski, Dan

AU - Seo, Eungwang

AU - Shajib, Anowar J.

AU - Shan, Xikai

AU - Tanvir, Nial

AU - Vujeva, Luka

N1 - This article is part of the Theo Murphy meeting issue ‘Multi-messenger gravitational lensing (Part 2)’.

PY - 2025/5/1

Y1 - 2025/5/1

N2 - We introduce the rapidly emerging field of multi-messenger gravitational lensing—the discovery and science of gravitationally lensed phenomena in the distant universe through the combination of multiple messengers. This is framed by gravitational lensing phenomenology that has grown since the first discoveries in the twentieth century, messengers that span 30 orders of magnitude in energy from high-energy neutrinos to gravitational waves, and powerful ‘survey facilities’ that are capable of continually scanning the sky for transient and variable sources. Within this context, the main focus is on discoveries and science that are feasible in the next 5–10 years with current and imminent technology including the LIGO–Virgo–KAGRA network of gravitational wave detectors, the Vera C. Rubin Observatory and contemporaneous gamma/X-ray satellites and radio surveys. The scientific impact of even one multi-messenger gravitational lensing discovery will be transformational and reach across fundamental physics, cosmology and astrophysics. We describe these scientific opportunities and the key challenges along the path to achieving them. This article therefore describes the consensus that emerged at the eponymous Theo Murphy meeting in March 2024, and also serves as an introduction to this Theo Murphy meeting issue.

AB - We introduce the rapidly emerging field of multi-messenger gravitational lensing—the discovery and science of gravitationally lensed phenomena in the distant universe through the combination of multiple messengers. This is framed by gravitational lensing phenomenology that has grown since the first discoveries in the twentieth century, messengers that span 30 orders of magnitude in energy from high-energy neutrinos to gravitational waves, and powerful ‘survey facilities’ that are capable of continually scanning the sky for transient and variable sources. Within this context, the main focus is on discoveries and science that are feasible in the next 5–10 years with current and imminent technology including the LIGO–Virgo–KAGRA network of gravitational wave detectors, the Vera C. Rubin Observatory and contemporaneous gamma/X-ray satellites and radio surveys. The scientific impact of even one multi-messenger gravitational lensing discovery will be transformational and reach across fundamental physics, cosmology and astrophysics. We describe these scientific opportunities and the key challenges along the path to achieving them. This article therefore describes the consensus that emerged at the eponymous Theo Murphy meeting in March 2024, and also serves as an introduction to this Theo Murphy meeting issue.

U2 - 10.1098/rsta.2024.0134

DO - 10.1098/rsta.2024.0134

M3 - Article

SN - 0264-3952

VL - 383

JO - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

JF - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

IS - 2295

M1 - 20240134

ER -

Multi-messenger gravitational lensing

Abstract

Bibliographical note

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Projects

Unveiling the Local Population of Compact Binary Mergers

UK involvement in LSST: Phase C

Castor: UK - Project Linkage: BLat CatA 22 CASTOR - This is part of the Science and Exploration Bilaterals Programme (project linkage stated below)

KilonovaRank: gravitational wave counterparts and exotic transients with next-generation surveys

Cite this