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Fifth Physics Beyond Colliders Annual Workshop

Posted By Administration, Monday 29 April 2024

Authors: Gianluigi Arduini, CERN, Kristiane Bernhard-Novotny, CERN, Joerg Jaeckel, University of Heidelberg, Gunar Schnell, UPV/EHU & Ikerbasque Bilbao, and Claude Vallée, CPPM-Marseille


The Physics Beyond Colliders (PBC) Study was launched in 2016 to explore the opportunities offered by CERN’s unique accelerator and experimental area complex and expertise to address some of the outstanding questions in particle physics through experiments complementary to the high-energy frontier. Together with the Large Hadron Collider (LHC) experiments, the PBC proposals form a synergistic partnership, which fosters an ecosystem beyond collider-based research and diversifies CERN’s science programme at the precision and intensity frontiers.

The fifth PBC annual workshop was held from 25 to 27 March at CERN to explore new ideas and avenues aiming to answer open questions of the Standard Model and beyond, and to provide updates of ongoing projects.

The Super Proton Synchrotron (SPS) North Area (NA) is one of the major fixed-target experimental facilities available at CERN and it is at the very heart of many present and proposed explorations for Beyond the Standard Model (BSM) physics. The NA includes an underground cavern (ECN3) for experiments requiring high-energy/high-intensity proton beams. Several proposals have been made for experiments to operate in ECN3 in the next decade and beyond. All of them require higher intensity proton beams than currently available. One of these proposals studied within PBC, SHiP (Search for Hidden Particles), aiming for a comprehensive investigation of the Hidden Sector in the GeV mass range at a dedicated Beam Dump Facility (BDF) [1], has been recently approved. Together with the activities of NA64, an experiment leading the searches for light dark particles with a versatile setup suited for electron [2], positron [3], muon [4] and hadron beams [5], this will significantly strengthen CERN’s focus towards dark-sector searches.

The FASER [6] and SND [7] experiments, now taking data at the LHC and originated in the first phase of the PBC initiative, contribute to both New Physics searches and to the study of very high-energy neutrinos. The proposed Forward Physics Facility (FPF), located in the line of sight of the interaction point 1 of the High Luminosity LHC (HL-LHC) 620 m away from it, could increase sensitivity to BSM physics by a factor of about 10,000 over FASER and it could allow for the detection of  thousands of neutrinos at TeV-energies per day with the potential of contributing to the measurement of parton-distribution functions with improved precision, benefitting the HL-LHC physics reach. The experiment consists of a series of sub-detectors of relatively small size. The FPF detectors’ layout definition and the corresponding integration studies have made significant progress as one of the main PBC-supported studies in view of the publication of a document describing the facility’s technical infrastructure by mid-2024.

proANUBIS [8], CODEX-beta [9] and MATHUSLA [10] are also actively being studied and would be located at large angles to the collision line of sight at the ATLAS, LHCb and CMS experiments.

Remaining in the realm of the Standard Model, a new NA60+[11] experiment with lead ions and NA61/SHINE[12] with light ions aim to uncover the onset of the Quantum Chromo Dynamics (QCD) phase transition at energy scales only accessible at the SPS, holding promise to decode the phases of nuclear matter in the non-perturbative regime of QCD. Understanding QCD means further to unravel the emergent properties of baryons and mesons. The AMBER [13] experiment plans to determine the charge radii of kaons and pions and to perform meson spectroscopy, in particular with kaons, within a wide range of experimental activities proposed beyond the next accelerator long Lshutdown (LS3). A substantial study has been carried out to enhance the number of identifiable kaons in the hadron beam delivered to AMBER. This could be achieved by improving the vacuum conditions and by the implementation of a dedicated optics in the beamline to the experiment.

To complement results obtained at AMBER’s predecessors COMPASS, HERA, and other experiments using a polarized beam and/or target, the LHCSpin collaboration  presented their proposal [14] to open a new frontier and to introduce spin physics at the LHC with a gaseous polarised target following the successful commissioning of the SMOG2 unpolarised-gas cell [15]. This would result in a new probe for studying collective phenomena at the LHC. Moreover, this would provide access to the multi-dimensional nucleon structure in a kinematic domain of hitherto limited exploration and make use of new probes, for instance by using charm mesons.

The TWOCRYST collaboration aims to demonstrate the feasibility and the performance of a possible fixed-target experiment in the LHC to measure electric and magnetic dipole moments (EDMs and MDMs) of charmed baryons [16], offering a complementary platform for the study of Charge-Parity (CP) violation in the Standard Model. These baryons would be generated by the collision of the protons of the secondary beam halo channelled by a crystal onto a target. MDM and EDM would be determined by measuring the baryon spin precession in the strong electric field of a crystal installed immediately downstream of the target.

The conceptual design of a beamline to produce a tagged neutrino beam to improve the precision of neutrino cross-section measurements has been developed combining the ENUBET [17] and NuTag [18] proposals. This design would significantly increase the amount of tagged neutrinos generated within a given geometric acceptance and energy band.

The Gamma Factory (GF) collaboration, which aims to demonstrate the principle of the Gamma Factory in the SPS, reported the progress achieved at IJCLab (France) in the development of the laser system required for this facility. The GF scheme is based on resonant excitation of ultra-relativistic partially stripped ions (that could be made available at the SPS and LHC) with a laser beam tuned to the atomic transition frequencies, followed by the process of spontaneous emission of photons. The resonant excitation of atomic levels of highly ionised atoms (ions) is possible due to the large energies of the ions generating a Doppler frequency boost of the counter-propagating laser beam photons by a factor of up to 2g, where g is the relativistic factor. Spontaneously-emitted photons produced in the direction of the ion beam, when seen in the laboratory frame, have their energy boosted by a further factor of 2g. As a consequence, the process of absorption and emission results in a frequency boost of the incoming photon of up to 4g 2. In the GF scheme, the SPS (LHC) atomic beams play the role of photon “frequency converters” of eV-photons into keV (MeV) X-rays (γ-rays). These intense and quasi-monochromatic beams could be used in a variety of atomic, nuclear and particle physics experiments [19] and they could potentially find application to energy production or nuclear-waste transmutation as well as the generation of intense positron and muon beams for future accelerator facilities.

High quality factor superconducting radio-frequency cavities, similar to those used for the acceleration of charged particles in accelerators, can also be used to detect axions (hypothetical particles that might be able to explain both the strong CP violation problem and account for dark matter) and even gravitational waves, and they can also be of interest for developing multi-qubit systems. The design and fabrication of a superconducting cavity for the heterodyne detection of axion-like particles over a wide range of masses [20] is the subject of a joint project between PBC and the CERN Quantum Technology Initiative. Atom Interferometry is another subject of common interest between the two CERN initiatives and PBC has demonstrated the technical feasibility of installing an atom interferometer with a baseline of 100 m in one of the LHC access shafts [21].

The charged-particle EDM collaboration presented the status of their approach to build a prototype ring that would validate the main concepts of a ring required to perform the first direct measurement of a proton EDM [22] and evaluate the sensitivity reach of such measurement.

The proposed injectors of the Future Circular electron-positron Collider (FCC-ee) [23] will significantly expand the variety of the offer of the CERN accelerator complex in terms of beam types and parameters, potentially opening up the possibility of new experiments. New ideas have been also presented, ranging from the measurement of molecular EDMs at the ISOLDE (Isotope Separator On Line DEvice) Radioactive Ion Beam Facility, over the prospects for antiproton physics at the Antiproton Decelerator (AD) and the Extra Low ENergy Antiproton (ELENA) ring, to the measurement of the gravitational effect of the LHC beam.

With these highlights in stock, many fruitful discussions, the annual workshop concluded as a resounding success. The PBC community thanked Claude Vallée (CPPM, Marseille), who retired as PBC co-coordinator and co-founder of the PBC initiative, after almost a decade of integral work, and welcomed Gunar Schnell (UPV/EHU & Ikerbasque, Bilbao) who will take on this role.

A small part of the community who contributes with lively discussions and innovative proposals and projects to the success of PBC.
Credit: K. Bernhard-Novotny (CERN)


[1] SHiP Collaboration, BDF/SHiP at the ECN3 high-intensity beam facility, CERN-SPSC-2022-032 ; SPSC-I-258

[2] Yu. M. Adreev et al. , Search for Light Dark Matter with NA64 at CERN,     Phys.Rev.Lett. 131 (2023) 16, 161801

[3] Yu. M. Adreev et al. , Probing light dark matter with positron beams at NA64,     Phys.Rev.D 109 (2024) 3, L031103

[4] Yu. M. Adreev et al. , Exploration of the Muon g−2 and Light Dark Matter explanations in NA64 with the CERN SPS high energy muon beam, arxiv:2401.01708 ; accepted by PRL

[5] S. Gninenko et al., Test of vector portal with dark fermions in the charge-exchange reactions in the NA64 experiment at CERN SPS, arxiv:2312.01703

[6] H. Abreu et al., First Direct Observation of Collider Neutrinos with FASER at the LHC, Phys.Rev.Lett. 131 (2023) 3, 031801

[7] R Albanese et al., Observation of Collider Muon Neutrinos with the SND@LHC Experiment, Phys.Rev.Lett. 131 (2023) 3, 031802

[8] A Shah et al., Searches for long-lived particles with the ANUBIS experiment, PoS EPS-HEP2023 (2024) 051 / A Shah et al., Installation of proANUBIS – a proof-of-concept demonstrator for the ANUBIS experiment, PoS LHCP2023 (2024) 168

[9] C Aielli et al., The Road Ahead for CODEX-b, arXiv:203.07316

[10] C Alpigani et al., An Update to the Letter of Intent for MATHUSLA: Search for Long-Lived Particles at the HL-LHC, arXiv:2009.01693

[11] NA60+ Collaboration, Letter of Intent: the NA60+ experiment, CERN-SPSC-2022-036; SPSC-I-259, Geneva, 2022, https://cds.cern.ch/record/2845241

[12] NA61/SHINE Collaboration, Addendum to the NA61/SHINE Proposal: A Low-Energy Beamline at the SPS H2, CERN-SPSC-2021-028 / SPSC-P-330-ADD-12, Geneva 2021, https://cds.cern.ch/record/2783037/files/SPSC-P-330-ADD-12.pdf

[13] C Quintas et al., The New AMBER Experiment at the CERN SPS, Few Body Syst. 63 (2022) 4, 72

[14] P. Di Nezza et al., The LHCspin Project, Acta Phys.Polon.Supp. 16 (2023) 7, 7-A4

[15] C. Boscolo Meneguolo, et al., Study of beam-gas interactions at the LHC for the Physics Beyond Colliders fixed-target study, JACoW proceedings (2019)

[16] S. Aiola et al., Progress towards the first measurement of charm baryon dipole

moments, Phys. Rev. D 103, 072003 (2021).

[17] F Acerbi et al., Design and performance of the ENUBET monitored neutrino beam, Eur.Phys.J.C 83 (2023) 10, 964

[18] A Baratto-Roldan et al., NuTag: proof-of-concept study for a long-baseline neutrino beam, arXiv:2401.17068

[19] D. Budker, M. Gorchtein, M. W. Krasny, A. Pálffy, A. Surzhykov (editors), Physics Opportunities with the Gamma Factory, Annalen der Physik, Volume 534, Issue 3 (2022)

[20] A Berlin et al., Heterodyne Broadband Detection of Axion Dark Matter, Phys. Rev. D 104, L111701

[21] G. Arduini et al., A Long-Baseline Atom Interferometer at CERN: Conceptual Feasibility Study, arXiv:2304.00614", CERN-PBC-REPORT-2023-002, Geneva, 2023, https://cds.cern.ch/record/2851946

[22] F. Abusaif, et al., Storage ring to search for electric dipole moments of charged particles: Feasibility study, CERN Yellow Reports: Monographs, CERN-2021-003, Geneva, 2021, https://cds.cern.ch/record/2654645, doi=10.23731/CYRM-2021-003

[23] M. Benedikt et al. (editors), Future Circular Collider Study. Volume 2: The Lepton Collider (FCC-ee) Conceptual Design Report, CERN-ACC-2018-0057, Geneva, December 2018. Published in Eur. Phys. J. ST.

Tags:  CERN  LHC  PBC  Physics Beyond Collider  research  workshop 

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2nd EPS TIG Hands-on Event took place at the CERN Ideasquare

Posted By Administration, Wednesday 16 November 2022
Updated: Thursday 17 November 2022
Authors: EPS Technology and Innovation Group

The start of a Master thesis or PhD thesis project represents a caesura in the academic education of many students in engineering and physics. Frequently, the focus is no longer solely on acquiring theoretical knowledge and understanding physical concepts, but rather on conceptualizing, realizing, and operating an experimental setup suited to investigate the research topic at hand. This change comes with the need for a new set of skills.

This need in mind, the “Technology and Innovation Group (TIG)” of EPS and the IdeaSquare innovation space at CERN hosted the “2nd EPS TIG Hands-on Event for Science, Technology and Interface” from September 30 to October 2 at CERN, Geneva. On day 1 the 19 participating students from across Europe received introductory lectures into rapid prototyping and IP-related questions from Markus Nordberg and visited the Compact Muon Solenoid (CMS), the particle detector at the Large Hadron Collider (LHC). On day 2 they were introduced into different technologies - NV center-based quantum sensing and nm-precise position sensing– by Prof. Jan Meijer (University Leipzig) and Olivier Acher (HORIBA), respectively, who joined remotely. Afterwards the students were assigned into groups, each being in charge of realizing one subcomponent of a tutorial experiment on said topics. Since eventually all pieces had to be integrated into a complete experiment they did not only have to work on the technical tasks, e.g., assembling the electromechanical and optical setup or establishing the data acquisition, but also had to coordinate their work with the other teams, pointing out the importance of communication and interpersonal skills in technology and scientific environments. Eventually the results were shared in a final presentation, such that all participants left Geneva with many valuable insights into the skills required to set up an experiment and the challenges that come with experimental work.

The TIG would like to thank EPS and the CERN IdeaSquare for the generous support of the event, Prof. Meijer Olivier Acher for their involvement, and Markus Nordberg and Stefan Kubsky for organizing and leading the workshop.

Presentation of measured deca-nanometer drift induced by thermal gradients in the compact superresolution sensor hands-on experiment
Image credit: Stefan Kubsky

Some twenty participants from across Europe seem to have liked the event
Image credit: Stefan Kubsky

Tags:  CERN  CMS  EPS Technology and Innovation Group  EPS TIG  hands-on event  IdeaSquare  LHC  workshop 

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EPS Young Minds Lisbon: Mental Health @ Técnico

Posted By Administration, Tuesday 10 May 2022
Updated: Tuesday 17 May 2022
Author: EPS Young Minds Lisbon section

In April 2022, the Lisbon Young Minds section organised the event “Mental Health @ Técnico”, at their home institution, Instituto Superior Técnico (IST), with the goal of discussing the very important topic of mental health, with a particular emphasis on academic contexts. This event comprised two different moments, a workshop and a round table.

The first session, which took place on 5th April, consisted of the workshop named “Academy diploma? Yes, but don’t forget your mental health!” given by Dr. Isabel Gonçalves, psychologist and head of the Academic Development Office of IST. During this workshop, the participants were invited to share their ideas and personal experiences concerning mental health in general and from the point of view of a student getting their bachelor’s, master’s or PhD diploma.

The second session, which took place on the 7th of April, consisted of the round table titled “Mental Health in Academia — Let’s Talk About It!”, also moderated by Dr. Gonçalves. The panel of this event was quite diverse, to represent several points of view within the academic community. More specifically, it was comprised by Prof. Luís Oliveira e Silva, full professor at the Physics Department of IST and president of the School Council; Dr. Daniela Magalhães, psychiatrist; Mariana Moreira, PhD student and member of the IST Student Club for Mental Health and Inclusion; and Marta Bárbolo, MSc student and member of the IST Student Support Unit. Moreover, the participants themselves also played a major role in the discussion, either by asking questions to the panel, or by sharing their own points of view. The plurality of ideas thus promoted a very interesting, thoughtful and enlightening debate, which contributed not only to identify some of the main issues related with mental health that exist within the IST community — not only among the students, but also among the professors and the staff —, but also to discuss and propose solutions to address and mitigate them.

In brief, this event fully achieved its intended goal: promoting a fruitful discussion on the topic of mental health at IST. The participants’ feedback was very positive: both the audience and the round table panel agreed that it was definitely a successful event that encouraged an ongoing open debate on this important matter, and contributed to the personal development of the participants.

image: EPS Young Minds

Tags:  EPS Young Minds  round-table talks  workshop  young physicists 

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IOP & EPS Code of Conduct workshop

Posted By Administration, Tuesday 10 August 2021

Author: Fiona Dorrington


On 25 May 2021, the IOP hosted a workshop with European Member Societies, sponsored by the European Physical Society (EPS) on creating and developing a code of conduct. The workshop was attended by 23 delegates from across 19 countries. It was chaired by Rachel Youngman, IOP Deputy Chief Executive and the outgoing President of EPS, Petra Rudolph, with closing remarks from the incoming President, Luc Bergé.  


The scope of the workshop was for EPS member societies to leave with an action plan to create and implement a code of conduct that ensures the safe participation of all meetings, conference and event attendees. The aim is to work towards an inclusive and equitable culture in STEM across Europe, where all physicists can access and participate in physics, with their safety and protections ensured.  
 
The IOP will be sharing the conference report with attendees in the near future, which will include recommendations for delegates from each of the presentations and support pack of templates and good-practice examples. The IOP will be in attendance at the 2022 EPS council meeting, as a follow-up meeting to discuss progress, share experiences and address challenges as an international community.
 
The case for professional conduct was made by UKRI, using the evidence base and findings through their research. Examples of code of conducts in use followed from IOP, EPS and EPS Equal Opportunities Committee, sharing learnings from the creation and revisions that have been made and included lessons learned. A panel discussion followed, prompting discussion from issues raised, exploring some challenges in greater detail, especially looking at the role of positive action vs positive discrimination.

CERN presented the later session, sharing their experience of developing a harassment investigating framework, and provided practical tips and advice for the creation of one. Delegates then divided into two streams, one focusing on the creation of a code of conduct, with the latter focusing on utilising and strengthening. Delegates then returned to the main room, where feedback and final reflections were shared.

Tags:  code of conduct  EPS Member Societies  IOP  workshop 

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News from the EPS Condensed Matter Division

Posted By Administration, Monday 17 May 2021

Author: José María De Teresa



1. Standalone workshops organised by IOP and EPS CMD

IOP and CMD have joined forces to organise standalone online workshops in 2021 and Q1 in 2022. These online workshops stem from some of the mini-colloquia proposed for the face-to-face CMD29 conference. The list of workshops as well as their dates of celebration and deadlines for abstract submission and registration can be consulted here and will be frequently updated: http://cmd29.iopconfs.org/onlineseries

Currently, the list of all confirmed online events in this series is:

  • Bound states in hybrid superconductor nanostructures, 28-29 June 2021
  • Recent advances in quantum thermodynamics with a focus on many-body interactions, 6 July 2021
  • Quantum matter at ultra-low temperatures, 20-21 July 2021
  • Recent developments in Gas Phase Synthesis of Nanoparticles, 15 September 2021
  • Large scale spectral simulations of Topological Matter and Disordered Materials, 4-5 October 2021
  • Spin control in twisted van der Waals heterostructures, 18-19 October 2021
  • LCM2021 (Localization in Condensed Matter), 17-18 November 2021
  • Advances in the Casimir force and heat transfer phenomena, 15 March 2022

 

2. Memorandum of Understanding (MoU) between the EPS CMD and EMA (European Magnetism Association)

The most important points of the MoU between EPS CMD and EMA, approved in December 2020, are:

  • While remaining legally separate one from another, it is understood that EMA will fulfill the duties of a Magnetism section of EPS CMD, and that EPS CMD will not organise events or other initiatives in the field of Magnetism without the concurrence of EMA.
  • EMA delegates a member of its General Council, usually, its president, to the board of EPS CMD. Conversely, the EPS CMD board will be informed of the meetings of the general council of EMA, and be invited to send a delegate, usually, its chairperson, if relevant for the matters discussed.
  • Both EPS CMD and EMA have strong programs of technical meetings, and each can benefit from cooperative activities.


3. Two new EPS Fellows from the Condensed Matter Division

Prof. Lucía Sorba and Prof. Angel Rubio have been elected EPS Fellows in the last EPS Council, held on 8th and 9th April 2021.

Prof. Lucía Sorba has made important contributions to the conception and engineering of the reliable semiconductor nanostructures, permitting the observation and control of novel hybrid excitations in condensed matter and the conception of novel semiconductor-based radiation detectors. Besides, she has served for many years to the EPS as Chair of the Semiconductor and Insulator section of the Condensed Matter Division.

Prof. Angel Rubio has made pioneering contributions to computational solid-state physics, in particular the development of widely-used frameworks for the description of the structure and dynamics of correlated electronic systems as well as his predictions of materials properties at the nanometer scale and in low dimensions.

Tags:  EPS CMD  EPS Condensed Matter Division  EPS Honorary Members  workshop 

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