-
Timothy David Hume (PSI - Paul Scherrer Institut)18/10/2022, 16:00Poster
T. Hume $^{1, 2, ∗}$
Go to contribution page
(on behalf of the muEDM Collaboration)
$^1$ ETH Zürich, 8093 Zürich, Switzerland
$^2$ Paul Scherrer Institute, 5232 Villigen PSI, Switzerland
The current limit on the muon electric dipole moment (muEDM) of $d_\mu<1.8\times10^{-19}\,e\mathrm{cm}\,\,(95\%\,\,\mathrm{C.L.})$[1] could be improved by $\sim10^3$ with a dedicated muEDM Experiment at PSI.
An EDM signal would... -
Shintaro Nagase18/10/2022, 16:01Poster
S. Nagase, H. Nagahama, K. Nakamura, N. Ozawa, M. Sato, T. Nakashita, M. Fukase, D. Uehara, Y. Sakemi
In this presentation, the current status of a comagnetometer which is dedicated to search for the permanent electric dipole moment of the electron (eEDM) using francium atoms is discussed. The designed comagnetometer consists of laser-cooled Rb-87 and Cs-133 atoms trapped simultaneously in...
Go to contribution page -
Mr Anthony Lejuez (LPC Caen, France)18/10/2022, 16:02Poster
on behalf of the nEDM collaboration
In the n2EDM experiment, the measurement of the neutrons spin state is required. Neutrons are first fully polarised in a super conducting magnet and then subjected to a magnetic field of 1 μT and a strong electric field (around 15 kV/cm). The goal is to measure the neutrons precession frequency and to assess the possible frequency shift induced by the...
Go to contribution page -
Prof. Martin Fertl (Johannes Gutenberg Universität Mainz)18/10/2022, 16:03Poster
The Muon g-2 collaboration has published the most precise measurement of the muon anomalous magnetic moment a? with an uncertainty of 460 ppb in 2021. The new experimental world average of a? deviates by 4.2 standard deviations from the Standard Model prediction provided by the Muon g-2 Theory Initiative. The emerging results from ab-initio lattice QCD calculations allow scrutiny of this...
Go to contribution page -
Christopher Crawford (University of Kentucky)18/10/2022, 16:04Poster
**The forward neutron-nucleus scattering amplitude has a $T$-odd, $P$-odd component proportional to $\sigma_n \cdot I \times k_n$. Thus the double spin-dependent neutron absorption cross section is a suitable observable in which to search for a new source of CP-violation needed to explain the baryon asymmetry of the universe. Unlike other complementary observables such as the electric dipole...
Go to contribution page -
Douglas Wong (Indiana University, Bloomington)18/10/2022, 16:05Poster
D. K.-T. Wong, M. T. Hassan, J. F. Burdine, T. E. Chupp, S. M. Clayton, C. Cude-Woods, S. A. Currie, T. M. Ito, C.-Y. Liu, M. Makela, C. L. Morris, C. M. O'Shaughnessy, A. Reid, N. Sachdeva, W. Uhrich
The neutron electric dipole moment (nEDM) experiment that is currently being developed at Los Alamos National Laboratory (LANL) will use ultracold neutrons (UCNs) and Ramsey's method of...
Go to contribution page -
Frederik Wauters (Johannes Gutenberg University Mainz)18/10/2022, 16:06Poster
Due to the large overlap between the muon and nuclear wave function, muonic atoms are an exceptionally sensitive system to study short range muon-nuclear/nucleon interactions and probe various nuclear moments. With a physics program focusing on Atomic Parity Violation (APV), the muX collaboration is performing a series of muonic X-ray measurements in medium- and high-Z nuclei, exploiting the...
Go to contribution page -
Dagmara Rozpedzik (Jagiellonian University)18/10/2022, 16:08Poster
The energy spectrum of ultracold neutrons (UCN) is an important factor in determining the systematic effects in precision measurements utilizing UCNs. We performed UCN energy spectrum measurements in a large storage tank filled by the PSI UCN source and studied its time evolution using OTUS - an oscillating spectrometer [1]. The obtained results will be compared to the TOF method and a...
Go to contribution page -
Hanno Filter (Technische Universität München)18/10/2022, 16:09Poster
Neutron Electric Dipole Moment searches typically compare spin precession of trapped ultra-cold neutrons (UCN) with a stable clock, in an applied high electric field. One approach to limit systematic uncertainties in this type of experiment employs two storage chambers, allowing for simultaneous differential measurements with two electric field orientations. In PanEDM [1] this approach is...
Go to contribution page -
Takuhiro Fujiie (Nagoya University)18/10/2022, 16:10Poster
The standard model of particle physics cannot explain the origin of the accelerating expansion of the universe or the hierarchy problem of gravity. Theories beyond the standard model of physics created to solve these problems often also predict the existence of a fifth fundamental force. We search for the existence of a fifth force using neutron pendellösung interference, where the neutron...
Go to contribution page -
Fiona Kirk (PTB Braunschweig)18/10/2022, 16:11Poster
The type-I seesaw model is probably the most straightforward and best studied extension of the Standard Model that can account for the neutrino masses determined from neutrino oscillation data. We study the symmetry-protected type-I seesaw, in which the Wilson coefficient of the Weinberg operator is set zero such that sizeable neutrino Yukawas are permissible that can lead to relevant effects...
Go to contribution page -
Giuseppe Lospalluto (ETH Zurich)18/10/2022, 16:12Poster
High precision experiments using muons (μ+) and muonium atoms (μ+e−) offer promising opportunities to test theoretical predictions of the Standard Model in a second-generation, fully-leptonic environment. Such experiments including the measurement of the muon g-2, muonium spectroscopy and muonium gravity would benefit from intense high-quality and low-energy muon beams.
At the Paul Scherrer...
Go to contribution page -
Luca Naterop (University of Zurich)18/10/2022, 16:13Poster
We perform the one-loop renormalization of the low-energy effective field theory (LEFT) in the 't Hooft-Veltman (HV) scheme for $\gamma_5$. We extend the LEFT operator basis by the required set of evanescent operators. Instead of using a pure $\overline{\textrm{MS}}$ procedure, we renormalize physical operators such that they absorb the finite effects from insertions of evanescent operators as...
Go to contribution page -
Vira Bondar (ETH Zurich)18/10/2022, 16:14Poster
The n2EDM experiment, which is currently under construction at the Paul Scherrer Institute (PSI), is designed to improve the sensitivity of the neutron electric dipole moment by an order of magnitude.
In order to achieve this goal, it is crucial to stabilize the magnetic fields inside the precession chamber, where neutrons are stored and Ramsey measurements are performed.
For this...
Go to contribution page -
Mr Shunsuke Endo (Japan Atomic Energy Agency)18/10/2022, 16:15Poster
The large enhancement of parity-violation of the weak interaction was found in nuclear reactions for several nuclei [1]. The enhancement is explained as the mixing of parity-unfavored partial amplitudes in the entrance channel of the compound sates, s-p mixing [2]. It is proposed that the time-reversal symmetry violation is also enhanced in compound nuclei by the same mechanism [3]. We are...
Go to contribution page -
Katharina von Schoeler (ETH Zurich)18/10/2022, 16:16Poster
Metallic magnetic microcalorimeters (MMCs) represent a promising detection method for broadband high-resolution x-ray spectroscopy. These systems are particularly suitable for the detection of low-energy x-rays, as found in the spectroscopy of low-Z muonic atoms. Such high-resolution spectra would enable precision measurements of charge radii of light nuclei and could thus provide important...
Go to contribution page -
Dr Gurtej Kanwar (ITP Universität Bern), Gurtej Kanwar (University of Bern)18/10/2022, 16:17Poster
Pseudoscalar pole diagrams are the numerically dominant component of the HLbL contribution to the muon $g-2$. We report on our computation of the pion and eta pole contributions from twisted mass lattice QCD at physical quark masses. Pion and eta transition form factors to two photons are the key intermediate quantity required to derive these contributions; on the lattice, we have access to a...
Go to contribution page -
Dr Ren Li (Instituut voor Kern- en Stralingsfysica, University of Leuven)18/10/2022, 16:18Poster
Cs magnetometer based current source for permanent neutron electric dipole moment measurement
Ren Li$^1$, Judith Vankeirsbilck$^1$, Reza Tavakoli-Dinani$^1$, Nathal Severijns$^1$
$^1$ Instituut voor Kern- en Stralingsfysica, University of Leuven
(on behalf of the nEDM collaboration)A non-zero permanent Electric Dipole Moment (EDM) in elementary A non-zero permanent Electric Dipole...
Go to contribution page -
Wenting Chen (PSI - Paul Scherrer Institut)18/10/2022, 16:19Poster
The n2EDM experiment at PSI's Ultracold Neutron source aims at searching for the permanent neutron electric dipole moment with a sensitivity of about $1 \times 10^{-27}$ ecm with the baseline setup. In order to correct for first order magnetic field drifts and gradients when using Ramsey’s method of separated oscillating field with ultracold neutrons, this experiment requires a precise...
Go to contribution page -
Simon Corrodi (Argonne National Laboratory)18/10/2022, 16:20Poster
The measurement of the muon anomalous magnetic moment $a_{\mu}$ is a precision test of the Standard Model and an indirect search for New Physics. The Muon g-2 (E989) collaboration has published the most precise measurement of the muon anomalous magnetic moment with an uncertainty of 460 ppb in 2021, leading to a world average that deviates by 4.2 standard deviations from the Standard Model...
Go to contribution page -
Jesse Zhang (ETH Zürich)18/10/2022, 16:21Poster
The LEMING experiment aims to measure the free fall of muonium (M $= \mu^+ + e^-$) and thereby testing for the first time the weak equivalence principle using a purely leptonic, second-generation antimatter dominated system. Such a direct measurement requires a high-intensity, low-emittance M beam. We have demonstrated the working principle of this novel M beam by stopping accelerator muons in...
Go to contribution page -
Sei Ban (ICEPP, The university of Tokyo)18/10/2022, 16:22Poster
The MEG II experiment searches for the charged lepton flavor violation process, $\mu\rightarrow e^+ +\gamma$, with the target sensitivity of branching ratio : O(10$^{-14}$).
Go to contribution page
Gamma-rays are detected by the liquid xenon detector to reconstruct their energy, timing, and position. In the liquid xenon detector, 4092 VUV-sensitive MPPCs produced by Hamamatsu photonics are used. Decrease of photon... -
Robert Waddy (ETH Zurich)18/10/2022, 16:23Poster
The LEMING experiment aims to test the equivalence principle for second-generation matter, using a cold muonium beam (bound μ+e−), where the inertial mass is dominated by the muon.
Go to contribution page
The feasibility of such a measurement relies on measuring the gravitational deflection of a lifetime-limited atomic beam. In this poster, the feasibility of an atomic interferometer is discussed, which could... -
Virginia Marshall (University of Groningen, Nikhef)18/10/2022, 16:24Poster
Limiting the value of the permanent electric dipole moment on the electron (eEDM) provides a sensitive probe of the Standard Model of particle physics and its extensions. The current best limit on the eEDM is $|d_e| < 1.1 \times 10^{-29}~\it{e}~\rm{cm}$ [1] using ThO, while experiments have been performed using a number of different atoms and molecules. In our experiment a supersonic source of...
Go to contribution page -
Mr Jun Kai Ng (Tsung-Dao Lee Institute, Shanghai Jiao Tong University), Tianqi Hu (Tsung-Dao Lee Institute, Shanghai JiaoTong University)18/10/2022, 16:25Poster
The muEDM experiment at PSI aims to search for the muon electric dipole moment with unprecedented sensitivity. The muon is first injected into a solenoid storage ring, and then a pulsed magnetic field is used to kick the muon onto a stable orbit. To this end, a fast signal is required to trigger the magnetic field, and this is provided by a muon entrance detector consisting of an ultra-thin...
Go to contribution page -
Marius Koeppel (JGU Mainz)18/10/2022, 16:26Poster
The Mu3e experiment at the Paul Scherrer Institute (PSI) searches for the charged lepton flavour violating decay $\mu^+ \rightarrow e^+ e^+ e^-$.
Go to contribution page
The experiment aims for an ultimate sensitivity of one in $10^{16}$ $\mu$ decays.
The first phase of the experiment, currently under construction, will reach a branching ratio sensitivity of $2\cdot10^{-15}$ by observing $10^{8}$ $\mu$ decays per... -
Giovanni Dal Maso (PSI - Paul Scherrer Institut)18/10/2022, 16:27Poster
The High-Intensity Muon Beams (HIMB) project aims to increase the rate of the intensity muon beamlines at Paul Scherrer Institute (PSI) by two orders of magnitude up to 10^10 µ+/s, with a significant impact on low-energy, high-precision muon-based experiments. This is done by improving the surface muon yield with a new target geometry and by increasing capture and transmission with...
Go to contribution page -
Nathalie Ziehl (ETH Zurich)18/10/2022, 16:28Poster
Ultralight Axions and axion-like particles are important dark matter candidates. If they are responsible for a significant proportion of dark matter, and are thus present in a large number density, they can be viewed as a galactic-scale classical field oscillating at a frequency proportional to their mass m$_a$. Interactions of a coherently oscillating axion dark matter field with gluons could...
Go to contribution page -
Ayaka Matsushita (The University of Tokyo)18/10/2022, 16:29Poster
The MEG II experiment searches for $\mu\to e\gamma$ decay which is one of the charged lepton flavor violation decays. The discovery of this decay will be clear evidence of new physics beyond the Standard Model. The liquid xenon (LXe) gamma-ray detector is one of the subdetectors in the MEG II experiment. It measures the energy, position and timing of the gamma-ray from $\mu\to e\gamma$. The...
Go to contribution page -
Dr Eremey Valetov (PSI - Paul Scherrer Institut)18/10/2022, 16:30Poster
The High Intensity Muon Beams (HIMB) project at the Paul Scherrer Institute (PSI) will provide an unprecedented rate of 1e10 muons/sec to next-generation intensity frontier particle physics and material science experiments. As part of our work on the beamline design optimisation for the HIMB, we used differential-algebraic transfer maps with system knobs computed using the code COSY INFINITY...
Go to contribution page -
Vladyslava Sharkovska (PSI - Paul Scherrer Institut)18/10/2022, 16:31Poster
In this poster presentation, I will discuss the two-photon exchange (TPE) as a crucial higher-order contribution to lepton-proton scattering and the theory of light muonic atoms. In particular, I will focus on the proton polarizability contribution as the dominant uncertainty in the theory prediction of the Lamb shift and the hyperfine splitting (HFS) in muonic hydrogen ($\mu$H). It is...
Go to contribution page -
Estelle Chanel (Institut Laue Langevin)18/10/2022, 16:32Poster
A new source of ultracold neutrons (UCNs), developed at the Institut Laue-Langevin (ILL) and named SuperSUN, is currently being commissioned. The source converts the cold neutrons, delivered by ILL's existing beam H523, to UCNs in a vessel filled with isotopically pure superfluid helium-4, wherein the inelastic scattering process transfers the neutron's energy and momentum to phonons in the...
Go to contribution page -
Marc Persoz (Universität Bern)18/10/2022, 16:33Poster
Neutron grating interferometers can be employed as powerful tools to perform high-precision measurements of deflection angles and scattering. A novel concept of a symmetric Talbot-Lau interferometer using absorption gratings is under development at the University of Bern. The ultimate goal of this project will be a sensitive measurement of the neutron electric charge. Currently, a...
Go to contribution page -
Viacheslav Belov (Joint Institute of Nuclear Research)18/10/2022, 16:35Poster
Extracting particle physics properties from neutrinoless double-beta (0nßß) decay requires a detailed understanding of the involved nuclear structures. Still, modern calculations of the corresponding nuclear matrix elements (NMEs) differ by factors 2-3.
The high momentum transfer of Ordinary Muon Capture (OMC) provides insight into highly excited states similar to those that contribute...
Go to contribution page -
Giovanni Gallucci (INFN - Genova)18/10/2022, 16:36Poster
The HOLMES experiment aims to measure directly the neutrino mass with a calorimet- ric approach studying the end point of the 163Ho electron-capture decay spectrum. This isotope is produced via neutron capture by 162Er and its very low Q-value (2.8 keV) makes it a very good choice but introduces two critical aspects. The first one is the need to embed the isotope inside the cryogenic...
Go to contribution page -
jun kai ng (Shanghai Jiao Tong University)18/10/2022, 16:37Poster
A high-fidelity simulation is crucial in the study of systematic errors arising from beam dynamics and detector acceptance in the Muon g-2 experiment at Fermilab. Gm2ringsim, our current Geant4-based simulation package is computationally expensive and has limited the amount of dataset that can be produced for various systematic studies. We propose a “divide and conquer” approach, where the...
Go to contribution page -
Takanori Mogi (The University of Tokyo)18/10/2022, 16:38Poster
A free neutron decays into a proton, an electron, and an antineutrino in a lifetime of about 880 s. The lifetime is an important parameter for particle physics and astrophysics. For example, the abundance ratio of light elements in the early universe in the Big Bang nucleosynthesis is determined using the neutron lifetime, and the lifetime also determines the Vud term of the...
Go to contribution page -
Dr Elizabeth George (Wittenberg University), Dr Oscar Naviliat-Cuncic (LPC-Caen, University of Caen Normandy), Dr Paul Voytas (Wittenberg University), Tom-Erik Haugen (Michigan State University and Facility for Rare Isotope Beams)18/10/2022, 16:39Poster
Symmetry under the combined charge and parity (CP) transformations is only known to be viola tedthrough mixing matrices in the Standard Model. This leads to vanishingly small effects in many low energy processes. Positronium (Ps) is a purely leptonic bound state that decays to photons. Any observation of CP violation in Ps would indicate beyond Standard Model physics. We are designing an...
Go to contribution page -
Joachim Bosina (Atominstitut, TU Wien)18/10/2022, 16:40Poster
The qBounce collaboration successfully commissioned a new Ramsey-type gravitational resonance spectroscopy (GRS) setup at the Institute Laue-Langevin (Grenoble). This increases the achievable sensitivity significantly with respect to previous implementations. In 2018, we measured the gravitational state transitions with the new setup. This Ramsey-type implementation is not only sensitive to a...
Go to contribution page -
Martin Müller (JGU Mainz, Insititute for Nuclear Physics)18/10/2022, 16:41Poster
The Mu3e experiment will search for the lepton flavour violating decay $\mu^+ \rightarrow e^+ e^- e^+$ and is aiming for a sensitivity of one in $10^{16}$ muon decays. Since this decay is highly suppressed in the Standard Model to a branching ratio of below $\mathcal{O}(10^{−54})$, an observation would be a clear sign for new physics.
In the Mu3e detector, four layers of silicon pixel...
Go to contribution page -
Sophie Kollatzsch (PSI)18/10/2022, 16:42Poster
Using the McMule framework, we present fully differential predictions for the process $e^+e^- \to \mu^+ \mu^-, \tau^+ \tau^-$ with polarised initial states, including the dominant QED corrections at NNLO. Weak corrections are included at NLO in an effective field theory approach. This calculation is important for a wide range of experiments measuring the $R$ ratio (e.g. Daphne, VEPP, ...) or...
Go to contribution page -
Jost Herkenhoff (Max-Planck Institut für Kernphysik)18/10/2022, 16:43Poster
The amazing evolution of precision in recent Penning-trap experiments is driving the need for ever-improving cooling techniques. In this talk, the prospect of a new sympathetic cooling technique using an electron-plasma coupled to a single highly charged ion is presented. Utilizing the synchrotron-radiation of electrons in a strong magnetic field enables cooling to very low motional quantum...
Go to contribution page -
Simon Scheidegger (ETH Zürich)18/10/2022, 16:44Poster
Precision experiments in the hydrogen atom have a long tradition and extensive studies of transitions between low lying $n\leq12$ states were carried out [1$-$6]. These measurements can be used to determine values of the Rydberg constant and the proton charge radius. We present a new experimental approach to perform measurements of transition frequencies between the metastable 2s...
Go to contribution page -
Kseniia Svirina (Université Grenoble Alpes), Mr Thomas Bouillaud (Université Grenoble Alpes)18/10/2022, 16:45Poster
The uniformity of the magnetic field inside the inner part of the n2EDM experiment is a crucial condition to achieve the desired sensitivity of $10^{-28} e \ cm$ for the neutron electric dipole moment (EDM). The magnetic-field mapper is a dedicated nonmagnetic robot designed to measure the magnetic field at any point of a large cylindrical volume ($0 \le \rho \le 780 \ mm$, $0 \le \phi \le 360...
Go to contribution page -
Mr Tianqi Hu (Shanghai JiaoTong University)18/10/2022, 16:46Poster
A permanent electric dipole moment (EDM) in any elementary particle implies CP symmetry violation and thus could help explain the baryon asymmetry in the universe. Within the Standard Model (SM), the muon EDM is extremely small (~10$^{-42}$ e cm) and therefore any detected signal is a strong hint of new physics beyond the SM. In the Muon g-2 experiment at Fermilab, we aim to perform a more...
Go to contribution page -
Kenji Mishima (KEK)18/10/2022, 16:47Poster
A neutron interferometer is a device that splits the wavefunction of a single neutron into two paths, superimposes them, and detects the potential difference between the two paths as a phase difference. Neutron interferometers were practically used in the 1970s, and have contributed greatly to the development of quantum mechanics, such as the verification of spinors and the phase shift of...
Go to contribution page -
DAVID HITLIN (Caltech)18/10/2022, 16:48Poster
Should muon-to-electron conversion in the field of a nucleus be found in the current generation of experiments, the measurement of the atomic number dependence of the process will become an important experimental goal. We present a new treatment of the (Z,A) dependence of muon-to-electron conversion. Our approach differs from earlier work in that it combines nuclear charge distribution...
Go to contribution page -
Mr Martin Engler (Department of Chemistry, Johannes Gutenberg University, Mainz), Mr Noah Yazdandoost (Department of Chemistry, Johannes Gutenberg University, Mainz)18/10/2022, 16:49Poster
The $\tau$SPECT experiment aims at measuring the free neutron lifetime, which is a key ingredient for high-precision tests of the Standard Model of Particle Physics and is also fundamental for understanding the production of light elements during the Big Bang Nucleosynthesis.
Neutrons with energies in the range of tens of nano electronvolts are loaded by spin flipping into the tSPECT...
Go to contribution page -
Andrea Gurgone (University of Pavia and INFN)18/10/2022, 16:50Poster
The search for charged Lepton Flavour Violation in muon decays is a key tool to test the Standard Model at the intensity frontier. The MEG II and Mu3e experiments at PSI are respectively designed to detect $\mu \to e \gamma$ and $\mu \to eee$ with an unprecedented accuracy. Moreover, both experiments are competitive in searching for muon decays involving an invisible axion-like particle $X$....
Go to contribution page -
Ulrich Schmidt (Physikalisches Institut der Uni Heidelberg)18/10/2022, 16:51Poster
The $^3$He/$^{129}$Xe co-magnetometer is a high precision experiment that can address a variety of fundamental questions including the measurement of the \textit{CP}-violating permanent electric dipole moment (EDM) of the $^{129}$Xe atom, looking for a violation of Lorentz Invariance, and searching for a spin-dependent \textit{P}- and \textit{CP}-violating nucleon-nucleon interaction mediated...
Go to contribution page -
Dr René Sedmik (TU Wien)18/10/2022, 16:52Poster
Ever since the discovery of accelerated expansion, the cosmological standard model Lambda-CDM has been our best description of the universe on large scales. In recent years, however, significant tensions have appeared that cast doubt on the validity of dark matter being a cold non-interacting fluid, and the cosmological constant being a global parameter. Moreover, searches for weakly...
Go to contribution page -
David d'Enterria (CERN)18/10/2022, 16:53Poster
The abundant production of beauty and charm hadrons in the $5\cdot 10^{12}$ Z boson decays expected at FCC-ee offers outstanding opportunities in flavour physics that exceed those available at Belle II by a factor of 20, and are complementary to the LHC heavy-flavour programme. A wide range of measurements will be possible in heavy-flavour spectroscopy, rare decays of heavy-flavoured...
Go to contribution page -
Mr Mohamad Kanafani (LPC Caen)18/10/2022, 16:54Poster
Precision measurements in nuclear beta decay have proven in the past years their capability to search for new physics beyond the standard model (SM), by looking for deviations of certain sensitive observables away from their SM predictions. The study of the full beta energy spectrum offers a great medium for probing these observables and thus searching for new physics.
Go to contribution page
The long-term goal of... -
Waleed Khalid (SMI, OEAW)18/10/2022, 16:55Poster
The advent of silicon detectors with an internal gain mechanism has opened new avenues in the field of low-energy precision physics. However, these sensors need to be modified before they can be used in the field of precision low-energy physics. One sensor, with such modifications, is the so-called pLGAD (proton Low Gain Avalanche Detector) [1]. The sensor stems from the iLGAD (inverse Low...
Go to contribution page -
Thomas Neulinger (Institut Laue-Langevin)18/10/2022, 16:56Poster
The SUN-2 source [1] at the Institut Laue-Langevin (ILL) is a prototype source of ultracold neutrons (UCN) that converts cold neutrons into UCN via downscattering in superfluid helium. UCN, which have kinetic energies on the order of hundreds of nanoelectronvolts, can be trapped in material-walled storage vessels and used, for example, in experimental searches for the neutron electric dipole...
Go to contribution page -
Cornelis Bernardus Doorenbos (PSI - Paul Scherrer Institut)18/10/2022, 16:57Poster
In the Paul Scherrer Institute, we operate a solid deuterium moderated Ultracold Neutron (UCN) source. UCNs are storable for several minutes, which makes them suitable for measuring neutron properties.
The UCN source will be used in the n2EDM experiment, which will measure the neutron electric dipole moment. This is CP violating and could help explain the Baryon Asymmetry of the...
Go to contribution page -
Alexander Frank (JINR)18/10/2022, 16:58Poster
ACCELERATION EFFECT IN QUANTUM MECHANICS AND NEUTRON OPTICS
A.I. Frank, M.A. Zakharov and G.V. Kulin
Joint Institute for Nuclear Research, Dubna, Russia.
frank@nf.jinr.ruThe report is devoted to the problem of interaction of neutrons with accelerating objects. As was recently shown [1], the previously known Accelerating Matter Effect (AME) [2], is only a special case...
Go to contribution page -
Victoria Kletzl (PSI - Paul Scherrer Institut)18/10/2022, 16:59Poster
The n2EDM experiment searching for the neutron electric dipole moment is currently being commissioned at PSI. Essential for a tenfold sensitivity improvement relative to the current best result is a uniform magnetic field ($\sigma(B_z) < 170$pT). Any localized magnetic contamination of the apparatus may result in a systematic error of the measurement.
Go to contribution page
Parts in the direct vicinity of the... -
Jonas Nuber (PSI - Paul Scherrer Institut)18/10/2022, 17:00Poster
Due to the close bond between orbiting muon and nucleus, the energy levels of muonic atoms are highly sensitive to effects of the nuclear structure. In order to study the magnetic structure of the proton, we are preparing a measurement of the ground-state hyperfine splitting in muonic hydrogen ($\mu$p) at Paul Scherrer Institute (PSI). In this experiment, $\mu$p atoms diffuse through a...
Go to contribution page -
Anastasio Fratangelo (Universität Bern)18/10/2022, 17:01Poster
The neutron Electric Dipole Moment (EDM) has attracted interest as a promising channel for finding new physics for a long time. The existence of a neutron EDM would violate CP symmetry given CPT conservation. This new source of CP violation could explain the baryon asymmetry of the universe. The BeamEDM experiment aims to measure the neutron EDM using a novel technique which overcomes the...
Go to contribution page -
Philipp Schmidt-Wellenburg (PSI - Paul Scherrer Institut)18/10/2022, 17:02Poster
The discovery of an electric dipole moment (EDM) of the muon would break time invariance and violate the combined symmetry of charge and parity (CP), shedding light on the imaginary parts of coupling constants in the muon sector of beyond standard model physics (BSM). A search for a muon EDM is an exciting test of the standard model complementary to the recently reported combined 4.2σ...
Go to contribution page -
Chavdar Dutsov (PSI - Paul Scherrer Institut)18/10/2022, 17:03Poster
At the Paul Scherrer Institute we are developing of a high precision instrument to measure the muon electric dipole moment (EDM) using the frozen-spin technique. The presence of a permanent EDM in an elementary particle implies Charge-Parity symmetry violation and, within the context of the Standard Model, the electric dipole moment of elementary particles is extremely small. However, many...
Go to contribution page -
Trukhanova Mariia (Lomonosov Moscow State University)18/10/2022, 17:04Poster
Many theoretical models that expand boundaries of the Standard Model of elementary particles predict the existence of the hidden sector of particles, which can very weakly interact with the visible sector of Standard Model particles. The exchange of virtual particles characterizes a new type of spin-spin interactions, which are different from the well-known electromagnetic ones. The Authors of...
Go to contribution page -
Manuel Lebert (Technical University of Munich)18/10/2022, 17:05Poster
The PERC facility is currently under construction at the FRM II in Garching, Germany. It will serve as an intense and clean source of electrons and protons from neutron beta decay for precision studies. It aims to improve the measurements of the properties of weak interaction by one order of magnitude and to search for new physics via new effective couplings.
Go to contribution page
PERC's central component is a 12... -
Karina Bernert (Technical University of Munich)18/10/2022, 17:06Poster
The PERC (Proton Electron Radiation Channel) instrument is a neutron decay facility currently being set up at the research reactor FRM II of the Heinz Maier-Leibnitz Zentrum in Garching. Its main component is a 12-meter long superconducting magnet system, which was recently delivered to the FRM II.
Go to contribution page
We aim to measure several correlation coefficients in neutron beta decay one order of... -
Bai-Long Hoid18/10/2022, 17:07Poster
We present the recent work on an improved Standard-Model prediction for the rare decay $\pi^0\to 𝑒^+e^-$, which plays a crucial role in the test of the long-distance dynamics of the strong interaction. The reduced amplitude of the decay is determined by the pion transition form factor for $\pi^0 \to \gamma^*\gamma^*$, for which we employ a dispersive representation that incorporates both...
Go to contribution page -
Valentin Czamler (Institut Laue-Langevin)18/10/2022, 17:08Poster
Clathrate hydrates [1] are water-based solids with large unit cells that show promise as potential moderators for use in the development of new, more intense sources of very cold neutrons (VCN). Such sources have the potential to enhance existing neutron scattering techniques, and to increase the reach of particle physics experiments that employ beams of slow neutrons. These include...
Go to contribution page -
Sophie Gagneur18/10/2022, 17:09Poster
The Mu3e experiment under construction at the Paul Scherrer Institute, Switzerland, aims to search for the lepton flavour violating decay of a muon into one electron and two positrons with an ultimate sensitivity of one in $10^{16}$ muon decays. The detector for the Mu3e experiment consists of High-Voltage Monolithic Active Pixel Sensors (HV-MAPS) combined with scintillating tiles and fibres...
Go to contribution page -
Kavish Imam (University of Tennessee)18/10/2022, 17:10Poster
The neutron electric dipole moment experiment at the Spallation Neutron Source (nEDM@SNS) will implement a novel method, which utilizes polarized ultra-cold neutrons (UCN) and polarized $^3$He in a bath of superfluid $^4$He, to place a new limit on the nEDM down to 2-3$\times$10$^{-28}$ e·cm. The experiment will employ a cryogenic magnet and magnetic shielding package to provide the required...
Go to contribution page -
Wojciech Wislicki (National Centre for Nuclear Research (PL))18/10/2022, 17:11Poster
Non-commutativity of a class of space-time, called $\kappa$-Minkowski, corresponds to curvatures of the momentum space.
Go to contribution page
In the rigorous treatment of fields on $\kappa$-Minkowski space and using the concept of antipode, one can find actions of discrete symmetries C, P, and T on fields and explicitly derive a subtle difference between Lorentz transformations of particles and antiparticles,... -
Thomas Theodor Rudzki (Physikalisches Institut Heidelberg)18/10/2022, 17:12Poster
The Mu3e experiment searches for the lepton flavor violating decay $\mu^+\rightarrow e^+e^-e^+$ with an ultimate aimed sensitivity of $1$ event in $10^{16}$ decays.
Go to contribution page
For this goal a very high momentum resolution is required.
This goal can only be achieved by reducing the material budget per tracking layer to $X/X_0 \approx 0.1\,\%$ and by using gaseous helium as coolant, a novelty for... -
Frederic Noël (ITP, AEC, Uni Bern)18/10/2022, 17:13Poster
Lepton-flavor-violating decays of light pseudoscalars, $P=\pi^0,\eta,\eta'\to\mu e$, are stringently suppressed in the Standard Model up to tiny contributions from neutrino oscillations, so that their observation would be a clear indication for physics beyond the Standard Model. However, in effective field theory such decays proceed via axial-vector, pseudoscalar, or gluonic operators, which...
Go to contribution page -
POONAM CHOUDHARY (IIT KANPUR)18/10/2022, 17:14Poster
We evaluate the exact two-photon exchange (TPE) correction to the unpolarized elastic lepton-proton scattering at small momentum transfer using a low energy effective field theory, heavy baryon chiral perturbation theory. The infrared divergent four- point box diagram with one heavy proton propagator is evaluated analytically via dimensional regularization. We present a numerical comparison of...
Go to contribution page -
Abhilasha SINGH (GANIL)18/10/2022, 17:15Poster
The Matter’s Origin from RadioActivity (MORA) project focuses on ion manipulation in traps and laser orientation methods for the searches for New Physics (NP) in nuclear beta decay, aimed at explaining the matter-antimatter asymmetry observed in the Universe.
Go to contribution page
Precision experiments studying nuclear decay complement high-energy physics measurements searching for signatures of physics beyond... -
George W.S. Hou (National Taiwan University)18/10/2022, 17:17Poster
Recent developments in the muon $g-2$ anomaly may bring about a renaissance of $\mu$ (and $\tau$) physics. The anomaly can be accounted for in the general two Higgs doublet model (without ad hoc $Z_2$ symmetry) via one-loop exchange of nondegenerate scalar $H$ and pseudoscalar $A$ bosons that have flavor changing neutral Yukawa couplings $\rho_{\tau\mu}$ and $\rho_{\mu\tau}$ at $\sim...
Go to contribution page -
Vladimir Voronin18/10/2022, 17:18Poster
We spatially split a non-polarized neutron beam passing through a 21.6 cm thick silicon crystal into two polarized beams with opposite spin orientations using a small magnetic field gradient of 3.1 G/cm (analogy to the Stern-Gerlach effect). To do this we used a two-crystal Laue diffraction scheme and Bragg angles close to the orthogonality. At the maximum achieved diffracting angle θB =82°,...
Go to contribution page -
Thomas Rao (North Carolina State University)18/10/2022, 17:19Poster
The Systematic and Operations Studies (SOS) for the neutron electric dipole moment (nEDM) experiment at the Spallation Neutron Source (SNS) will measure the trajectory correlation functions of $^{3}He$ and neutrons in order the determine the expected frequency shift from the geometric phase effect in the nEDM@SNS experiment. To this end the SOS apparatus will utilize Metastability Exchange...
Go to contribution page -
Ms AISHWARYA BHATTA (UNIVERSITY OF HYDERABAD)18/10/2022, 17:20Poster
Recently, various indications of lepton non-universality have been remarked in semileptonic $B$ meson decay processes, both in the neutral-current ($b \to s ll $) and charged-current ($b \to c l \bar \nu_l$) transitions. Influenced by these fascinating quotients, we examined the semileptonic decays involving the $b \to c l \nu_l$ quark level transitions. We executed it through a model...
Go to contribution page -
Sofia Calgaro (University of Padova & INFN Padova)18/10/2022, 17:21Poster
The GERmanium Detector Array (GERDA) experiment at the Laboratori Nazionali del Gran Sasso (LNGS, Italy) searched for the lepton-number-violating neutrinoless double-beta ($0\nu\beta\beta$) decay of $^{76}$Ge. The potential discovery of such phenomenon would have significant implications in cosmology and particle physics, helping unrevealing the Majorana nature of neutrinos.
Go to contribution page
The main feature... -
Dr Maninder Singh (Los Alamos National Laboratory)18/10/2022, 17:22Poster
(UCNA and UCNτ Collaboration)
Go to contribution page
Beta decay of a free neutron is the simplest form of "semi-leptonic" weak interaction and is free from nuclear structure effects. Despite the simplicity, the lifetime measurement remains one of the most challenging measurements, bearing different results depending on the technique ("bottle" or "beam") experiment [1, 2]. Another critical measurement from the decay... -
Jean Servais18/10/2022, 17:23Poster
In scattering quantum theory, resonances play a central role for determining the lifetime of the state of a system. By means of the Lagrange-mesh method (LMM), such resonances can be accurately studied. By combining the LMM to the complex scaling method, I present accurate computations of the resonances of the negatively charged positronium ion for low orbital momenta (L = 0, 1). In addition,...
Go to contribution page
Choose timezone
Your profile timezone: