_version_ 1866913131464228864
author Spector, Aaron D.
Brotherton, Daniel C.
Hallal, Ayman
Frädrich, Henry
Egge, Jacob
Wei, Li-Wei
Kozlowski, Todd
Karan, Kanioar
Bush, Zachary R.
Diaz-Ortiz Jr., Mauricio
Ejlli, Aldo
Gleason, Joe
Grote, Hartmut
Hartman, Michael T.
Hollis, Harold
Isleif, Katharina-Sophie
James, Alasdair L.
Messineo, Giuseppe
Mueller, Guido
Netrval, Ryan
Oceano, Isabella
Põld, Jan H.
Smith, Richard C. G.
Tanner, David B.
Willke, Benno
Lindner, Axel
author_facet Spector, Aaron D.
Brotherton, Daniel C.
Hallal, Ayman
Frädrich, Henry
Egge, Jacob
Wei, Li-Wei
Kozlowski, Todd
Karan, Kanioar
Bush, Zachary R.
Diaz-Ortiz Jr., Mauricio
Ejlli, Aldo
Gleason, Joe
Grote, Hartmut
Hartman, Michael T.
Hollis, Harold
Isleif, Katharina-Sophie
James, Alasdair L.
Messineo, Giuseppe
Mueller, Guido
Netrval, Ryan
Oceano, Isabella
Põld, Jan H.
Smith, Richard C. G.
Tanner, David B.
Willke, Benno
Lindner, Axel
contents From February to May of 2024 the Any Light Particle Search II (ALPS II) conducted its first science campaign using the `light-shining-through-a-wall' technique to search for pseudo-Goldstone bosons that lie beyond the Standard Model of particle physics and which are inaccessible by accelerator-based experiments. The experimental setup consists of two strings of superconducting dipole magnets, each more than 100 m long, that are separated by a wall. Laser light is directed through the first magnet string and a heterodyne detection system is used to measure the electromagnetic power that traverses a wall via the conversion to and then from a bosonic field. After the wall, a high-finesse optical cavity resonantly enhances the signal power. Two searches were carried out, one with the laser polarized perpendicular to the magnetic field direction and another with its polarization state aligned parallel to the magnetic field. No evidence for the existence of new bosons was found. In its first science campaign, ALPS II reached photon-boson conversion probability sensitivities of a few $10^{-13}$. The ongoing upgrade of the optical system aims to increase this sensitivity by about four orders of magnitude.
format Preprint
id arxiv_https___arxiv_org_abs_2601_18684
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Any Light Particle Searches with ALPS II: Description of the first science campaign
Spector, Aaron D.
Brotherton, Daniel C.
Hallal, Ayman
Frädrich, Henry
Egge, Jacob
Wei, Li-Wei
Kozlowski, Todd
Karan, Kanioar
Bush, Zachary R.
Diaz-Ortiz Jr., Mauricio
Ejlli, Aldo
Gleason, Joe
Grote, Hartmut
Hartman, Michael T.
Hollis, Harold
Isleif, Katharina-Sophie
James, Alasdair L.
Messineo, Giuseppe
Mueller, Guido
Netrval, Ryan
Oceano, Isabella
Põld, Jan H.
Smith, Richard C. G.
Tanner, David B.
Willke, Benno
Lindner, Axel
High Energy Physics - Experiment
From February to May of 2024 the Any Light Particle Search II (ALPS II) conducted its first science campaign using the `light-shining-through-a-wall' technique to search for pseudo-Goldstone bosons that lie beyond the Standard Model of particle physics and which are inaccessible by accelerator-based experiments. The experimental setup consists of two strings of superconducting dipole magnets, each more than 100 m long, that are separated by a wall. Laser light is directed through the first magnet string and a heterodyne detection system is used to measure the electromagnetic power that traverses a wall via the conversion to and then from a bosonic field. After the wall, a high-finesse optical cavity resonantly enhances the signal power. Two searches were carried out, one with the laser polarized perpendicular to the magnetic field direction and another with its polarization state aligned parallel to the magnetic field. No evidence for the existence of new bosons was found. In its first science campaign, ALPS II reached photon-boson conversion probability sensitivities of a few $10^{-13}$. The ongoing upgrade of the optical system aims to increase this sensitivity by about four orders of magnitude.
title Any Light Particle Searches with ALPS II: Description of the first science campaign
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2601.18684