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Kozyrev"},{"name":"N. Krasnikov"},{"name":"E. Kuznetsova"},{"name":"A. Lanev"},{"name":"P. Levchenko"},{"name":"A. Litomin"},{"name":"N. Lychkovskaya"},{"name":"V. Makarenko"},{"name":"A. Malakhov"},{"name":"V. Matveev"},{"name":"V. Murzin"},{"name":"A. Nikitenko"},{"name":"S. Obraztsov"},{"name":"V. Okhotnikov"},{"name":"A. Oskin"},{"name":"I. Ovtin"},{"name":"V. Palichik"},{"name":"V. Perelygin"},{"name":"M. Perfilov"},{"name":"G. Pivovarov"},{"name":"S. Polikarpov"},{"name":"V. Popov"},{"name":"O. Radchenko"},{"name":"M. Savina"},{"name":"V. Savrin"},{"name":"D. Selivanova"},{"name":"V. Shalaev"},{"name":"S. Shmatov"},{"name":"S. Shulha"},{"name":"Y. Skovpen"},{"name":"S. Slabospitskii"},{"name":"V. Smirnov"},{"name":"D. Sosnov"},{"name":"A. Stepennov"},{"name":"V. Sulimov"},{"name":"E. Tcherniaev"},{"name":"A. Terkulov"},{"name":"O. Teryaev"},{"name":"I. Tlisova"},{"name":"M. Toms"},{"name":"A. Toropin"},{"name":"L. Uvarov"},{"name":"A. Uzunian"},{"name":"E. Vlasov"},{"name":"A. Vorobyev"},{"name":"N. Voytishin"},{"name":"B.S. Yuldashev"},{"name":"A. Zarubin"},{"name":"I. Zhizhin"},{"name":"A. Zhokin"}],"abstract":"","source":"DOAJ","year":2025,"language":"","subjects":["Nuclear and particle physics. Atomic energy. Radioactivity"],"doi":"10.1007/JHEP05(2025)113","url":"https://doi.org/10.1007/JHEP05(2025)113","is_open_access":true,"published_at":"","score":69},{"id":"doaj_10.3390/universe11120387","title":"Computing the Graph-Changing Dynamics of Loop Quantum Gravity","authors":[{"name":"Thiago L. M. Guedes"},{"name":"Guillermo A. Mena Marugán"},{"name":"Francesca Vidotto"},{"name":"Markus Müller"}],"abstract":"In loop quantum gravity (LQG), states of the gravitational field are represented by labeled graphs called spin networks. Their dynamics can be described by a Hamiltonian constraint, which acts on the spin network states, modifying both spins and graphs. Fixed-graph approximations of the dynamics have been extensively studied, but its full graph-changing action so far remains elusive. The latter, alongside the solutions of its constraint, are arguably the missing features in canonical LQG to access phenomenology in all its richness. Here, we discuss a recently developed numerical tool that, for the first time, implements graph-changing dynamics via the Hamiltonian constraint. We explain how it is used to find new solutions to that constraint and to show that some quantum geometric observables behave differently than in the graph-preserving truncation. We also point out that these new numerical methods can find applications in other domains.","source":"DOAJ","year":2025,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe11120387","url":"https://www.mdpi.com/2218-1997/11/12/387","is_open_access":true,"published_at":"","score":69},{"id":"doaj_10.3390/universe11050154","title":"Toward Automated Coronal Observations: A New Integrated System Based on the Lijiang 10 cm Coronagraph","authors":[{"name":"Tengfei Song"},{"name":"Yu Liu"},{"name":"Xuefei Zhang"},{"name":"Mingyu Zhao"},{"name":"Xiaobo Li"},{"name":"Qiwang Luo"},{"name":"Feiyang Sha"},{"name":"Qiang Liu"},{"name":"Jacob Oloketuyi"},{"name":"Xinjian Wang"}],"abstract":"About ten years ago, we established the first coronagraph that has been continuously operating on the high plateau of western China. This coronagraph is an internal occulting, 10 cm aperture instrument, installed at Lijiang Station through a collaboration with the Norikura Station of the National Astronomical Observatory of Japan. To ensure high efficiency in current and future coronal observations, developing integrated observation systems is essential for reliable, autonomous, and remote operation of coronagraphs. This paper introduces an advanced integrated observation and control system, based on the Lijiang 10 cm coronagraph. The coronagraph focuses on the observations for the solar inner corona, capturing the coronal green-line emission within a field range from \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e1.03\u003c/mn\u003e\u003cmsub\u003e\u003cmi\u003eR\u003c/mi\u003e\u003cmo\u003e⨀\u003c/mo\u003e\u003c/msub\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e to \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e2.5\u003c/mn\u003e\u003cmsub\u003e\u003cmi\u003eR\u003c/mi\u003e\u003cmo\u003e⨀\u003c/mo\u003e\u003c/msub\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e. To enhance the observational precision and efficiency, a comprehensive integrated system has been designed, incorporating various subsystems, including precise pointing and tracking mechanisms, a multi-band filter system, a protective dome system, and a robust data storage infrastructure. This paper details the hardware architecture and software frameworks supporting each subsystem. Results from extended operational testing confirm the stability of the system, its capacity for autonomous and remote observations, and significant improvements in the automation and efficiency of coronal imaging. The automated observation system will be further improved and used for our future coronagraphs to be developed for coronal magnetism diagnosis.","source":"DOAJ","year":2025,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe11050154","url":"https://www.mdpi.com/2218-1997/11/5/154","is_open_access":true,"published_at":"","score":69},{"id":"arxiv_2507.14275","title":"The Rise of Particle Physics","authors":[{"name":"S. Ting"},{"name":"H. Georgi"},{"name":"J. Iliopoulos"},{"name":"L. Maiani"},{"name":"A. De Rujula"},{"name":"L. Di Lella"},{"name":"S. Myers"},{"name":"F. Marion"},{"name":"M. Pierini"},{"name":"G. Martinelli"},{"name":"R. Barbieri"},{"name":"G. Battimelli"},{"name":"L. Bonolis"},{"name":"M. Greco"},{"name":"G. Parisi"}],"abstract":"Discovery of the J Particle at Brookhaven National Laboratory and the Physics of Electrons and Positrons; The Standard Model Yesterday, Today and Tomorrow; The Rise of Gauge Theories: From Many Models to One Theory; From Charm to CP Violation; When the Standard Model Was Ignored; The Discovery of the W and Z Bosons at the CERN Proton-Antiproton Collider; A Personal History of CERN Particle Colliders (1972-2022); The Age of Gravitational Wave Astronomy; Precision Physics in the Era of (HL)LHC; Recent Developments in Flavor Physics, the Unitary Triangle Fit, Anomalies and All That; About BSM Physics, with Emphasis on Flavour; The Discovery of the Antiproton between Rome and Berkeley; Raoul Gatto and Bruno Touschek: the Rise of $e+e^-$ Physics; From ADONE's Multi-Hadron Production to the J/$Ψ$ Discovery; From Bjorken Scaling to Scaling Violations","source":"arXiv","year":2025,"language":"en","subjects":["hep-ph"],"url":"https://arxiv.org/abs/2507.14275","pdf_url":"https://arxiv.org/pdf/2507.14275","is_open_access":true,"published_at":"2025-07-18T17:56:52Z","score":69},{"id":"arxiv_2503.23821","title":"Science4Peace: A Plea for Continued Peaceful International Scientific Cooperation (Input to the European Strategy for Particle Physics -- 2026 update)","authors":[{"name":"A. Ali"},{"name":"M. Barone"},{"name":"D. Britzger"},{"name":"A. Cooper-Sarkar"},{"name":"J. Ellis"},{"name":"S. Franchoo"},{"name":"A. Giammanco"},{"name":"A. Glazov"},{"name":"H. Jung"},{"name":"D. Käfer"},{"name":"J. List"},{"name":"L. Lönnblad"},{"name":"M. Mangano"},{"name":"N. Raicevic"},{"name":"A. Rostovtsev"},{"name":"M. Schmelling"},{"name":"T. Schücker"},{"name":"A. Tanasijczuk"},{"name":"P. Van Mechelen"}],"abstract":"The European Strategy for Particle Physics (ESPP) - 2026 update is taking place in a turbulent international climate. Many of the norms that have governed relations between states for decades are being broken or challenged. The future progress of science in general, and particle physics in particular, will depend on our ability to maintain peaceful international scientific collaboration in the face of political pressures. We plead that the ESPP 2026 update acknowledge explicitly the importance of peaceful international scientific collaboration, not only for the progress of science, but also as a precious bridge between geopolitical blocs.   \"Scientific thought is the common heritage of mankind\" - Abdus Salam","source":"arXiv","year":2025,"language":"en","subjects":["physics.soc-ph","hep-ex","hep-ph","hep-th"],"url":"https://arxiv.org/abs/2503.23821","pdf_url":"https://arxiv.org/pdf/2503.23821","is_open_access":true,"published_at":"2025-03-31T08:15:42Z","score":69},{"id":"doaj_10.3390/universe10110406","title":"2D BAO vs. 3D BAO: Solving the Hubble Tension with Bimetric Cosmology","authors":[{"name":"Sowmaydeep Dwivedi"},{"name":"Marcus Högås"}],"abstract":"Ordinary 3D Baryon Acoustic Oscillations (BAO) data are model-dependent, requiring the assumption of a cosmological model to calculate comoving distances during data reduction. Throughout the present-day literature, the assumed model is \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmi mathvariant=\"sans-serif\"\u003eΛ\u003c/mi\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003eCDM. However, it has been pointed out in several recent works that this assumption can be inadequate when analyzing alternative cosmologies, potentially biasing the Hubble constant (\u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003eH\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e) low, thus contributing to the Hubble tension. To address this issue, 3D BAO data can be replaced with 2D BAO data, which are only weakly model-dependent. The impact of using 2D BAO data, in combination with alternative cosmological models beyond \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmi mathvariant=\"sans-serif\"\u003eΛ\u003c/mi\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003eCDM, has been explored for several phenomenological models, showing a promising reduction in the Hubble tension. In this work, we accommodate these models in the theoretically robust framework of bimetric gravity. This is a modified theory of gravity that exhibits a transition from a (possibly) negative cosmological constant in the early universe to a positive one in the late universe. By combining 2D BAO data with cosmic microwave background and type Ia supernovae data, we find that the inverse distance ladder in this theory yields a Hubble constant of \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmsub\u003e\u003cmi\u003eH\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003cmo\u003e=\u003c/mo\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e71.0\u003c/mn\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmn\u003e0.9\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003cmspace width=\"0.166667em\"\u003e\u003c/mspace\u003e\u003cmi\u003ekm\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi mathvariant=\"normal\"\u003es\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi\u003eMpc\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e, consistent with the SH0ES local distance ladder measurement of \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmsub\u003e\u003cmi\u003eH\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003cmo\u003e=\u003c/mo\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e73.0\u003c/mn\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmn\u003e1.0\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003cmspace width=\"0.166667em\"\u003e\u003c/mspace\u003e\u003cmi\u003ekm\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi mathvariant=\"normal\"\u003es\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi\u003eMpc\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e. Replacing 2D BAO with 3D BAO results in \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmsub\u003e\u003cmi\u003eH\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003cmo\u003e=\u003c/mo\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e68.6\u003c/mn\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmspace width=\"3.33333pt\"\u003e\u003c/mspace\u003e\u003cmn\u003e0.5\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003cmspace width=\"0.166667em\"\u003e\u003c/mspace\u003e\u003cmi\u003ekm\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi mathvariant=\"normal\"\u003es\u003c/mi\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmi\u003eMpc\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e from the inverse distance ladder. We conclude that the choice of BAO data significantly impacts the Hubble tension, with ordinary 3D BAO data exacerbating the tension, while 2D BAO data provide results consistent with the local distance ladder.","source":"DOAJ","year":2024,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe10110406","url":"https://www.mdpi.com/2218-1997/10/11/406","is_open_access":true,"published_at":"","score":68},{"id":"doaj_10.3390/universe10010039","title":"Primordial Gravitational Wave- and Curvature Perturbation-Induced Energy Density Perturbations","authors":[{"name":"Zhe Chang"},{"name":"Yu-Ting Kuang"},{"name":"Xukun Zhang"},{"name":"Jing-Zhi Zhou"}],"abstract":"We study the second-order scalar and density perturbations generated by Gaussian curvature perturbations and primordial gravitational waves in the radiation-dominated era. After presenting all the possible second-order source terms, we obtain the explicit expressions of the kernel functions and the power spectra of the second-order scalar perturbations. We show that the primordial gravitational waves might affect second-order energy density perturbation \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmsup\u003e\u003cmi\u003eδ\u003c/mi\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e2\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003c/msup\u003e\u003cmo\u003e=\u003c/mo\u003e\u003cmi\u003eδ\u003c/mi\u003e\u003cmsup\u003e\u003cmi\u003eρ\u003c/mi\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e2\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003c/msup\u003e\u003cmo\u003e/\u003c/mo\u003e\u003cmsup\u003e\u003cmi\u003eρ\u003c/mi\u003e\u003cmrow\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmn\u003e0\u003c/mn\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003c/msup\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e significantly. The effects of primordial gravitational waves are studied in terms of different kinds of primordial power spectra.","source":"DOAJ","year":2024,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe10010039","url":"https://www.mdpi.com/2218-1997/10/1/39","is_open_access":true,"published_at":"","score":68},{"id":"doaj_10.3390/universe10090377","title":"Topological Susceptibility of the Gluon Plasma in the Stochastic-Vacuum Approach","authors":[{"name":"Dmitry Antonov"}],"abstract":"Topological susceptibility of the SU(3) gluon plasma is calculated by accounting for both factorized and non-factorized contributions to the two-point correlation function of topological-charge densities. It turns out that, while the factorized contribution keeps this correlation function non-positive away from the origin, the non-factorized contribution makes it positive at the origin, in accordance with the reflection positivity condition. Matching the obtained result for topological susceptibility to its lattice value at the deconfinement critical temperature, we fix the parameters of the quartic cumulant of gluonic field strengths, and calculate the contribution of that cumulant to the string tension. This contribution reduces the otherwise too large value of the string tension, which stems from the quadratic cumulant, making it much closer to the standard phenomenological value.","source":"DOAJ","year":2024,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe10090377","url":"https://www.mdpi.com/2218-1997/10/9/377","is_open_access":true,"published_at":"","score":68},{"id":"ss_b3c605c7e15df24af8fa28362c35869b21566914","title":"Quantum integration of elementary particle processes","authors":[{"name":"Gabriele Agliardi"},{"name":"M. Grossi"},{"name":"M. Pellen"},{"name":"E. Prati"}],"abstract":"We apply quantum integration to elementary particle-physics processes. In particular, we look at scattering processes such as ${\\rm e}^+{\\rm e}^- \\to q \\bar q$ and ${\\rm e}^+{\\rm e}^- \\to q \\bar q' {\\rm W}$. The corresponding probability distributions can be first appropriately loaded on a quantum computer using either quantum Generative Adversarial Networks or an exact method. The distributions are then integrated sing the method of Quantum Amplitude Estimation which shows a quadratic speed-up with respect to classical techniques. In simulations of noiseless quantum computers, we obtain per-cent accurate results for one- and two-dimensional integration with up to six qubits. This work paves the way towards taking advantage of quantum algorithms for the integration of high-energy processes.","source":"Semantic Scholar","year":2022,"language":"en","subjects":["Physics"],"doi":"10.1016/j.physletb.2022.137228","url":"https://www.semanticscholar.org/paper/b3c605c7e15df24af8fa28362c35869b21566914","pdf_url":"https://arxiv.org/pdf/2201.01547","is_open_access":true,"citations":41,"published_at":"","score":67.22999999999999},{"id":"doaj_10.3390/universe9050232","title":"Teleparallel Minkowski Spacetime with Perturbative Approach for Teleparallel Gravity on a Proper Frame","authors":[{"name":"Alexandre Landry"},{"name":"Robert J. van den Hoogen"}],"abstract":"A complete perturbation theory suitable for teleparallel gravity is developed. The proposed perturbation scheme takes into account perturbations of the coframe, the metric, and the spin-connection, while ensuring that the resulting perturbed system continues to describe a teleparallel gravity situation. The resulting perturbation scheme can be transformed to one in which perturbations all take place within the co-frame. A covariant definition of a teleparallel Minkowski geometry is proposed. We compute the perturbed field equations for \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003ef\u003c/mi\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmi\u003eT\u003c/mi\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e teleparallel gravity and discuss the stability of the teleparallel Minkowski geometry within \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003ef\u003c/mi\u003e\u003cmo\u003e(\u003c/mo\u003e\u003cmi\u003eT\u003c/mi\u003e\u003cmo\u003e)\u003c/mo\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e teleparallel gravity.","source":"DOAJ","year":2023,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe9050232","url":"https://www.mdpi.com/2218-1997/9/5/232","is_open_access":true,"published_at":"","score":67},{"id":"doaj_10.3390/universe9110464","title":"Exploring Neutrino Mass Orderings through Supernova Neutrino Detection","authors":[{"name":"Maria Manuela Saez"}],"abstract":"Core-collapse supernovae (SNe) are one of the most powerful cosmic sources of neutrinos, with energies of several MeV. The emission of neutrinos and antineutrinos of all flavors carries away the gravitational binding energy of the compact remnant and drives its evolution from the hot initial to the cold final states. Detecting these neutrinos from Earth and analyzing the emitted signals present a unique opportunity to explore the neutrino mass ordering problem. This research outlines the detection of neutrinos from SNe and their relevance in understanding the neutrino mass ordering. The focus is on developing a model-independent analysis strategy, achieved by comparing distinct detection channels in large underground detectors. The objective is to identify potential indicators of mass ordering within the neutrino sector. Additionally, a thorough statistical analysis is performed on the anticipated neutrino signals for both mass orderings. Despite uncertainties in supernova explosion parameters, an exploration of the parameter space reveals an extensive array of models with significant sensitivity to differentiate between mass orderings. The assessment of various observables and their combinations underscores the potential of forthcoming supernova observations in addressing the neutrino mass ordering problem.","source":"DOAJ","year":2023,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe9110464","url":"https://www.mdpi.com/2218-1997/9/11/464","is_open_access":true,"published_at":"","score":67},{"id":"doaj_10.3390/universe9050227","title":"Magnetic Activity of Different Types of Variable Stars Observed by TESS Mission","authors":[{"name":"Ming Zhong"},{"name":"Liyun Zhang"},{"name":"Zilu Yang"},{"name":"Tianhao Su"}],"abstract":"The investigation of the magnetic activity of different types of variable stars holds significant implications for our understanding of the physical processes and evolution of stars. This study’s International Variable Star Index (VSX) variable star catalog was cross-matched with Transiting Exoplanet Survey Satellite (TESS) data, resulting in 26,276 labeled targets from 76,187 light curves. A total of 25,327 stellar flare events were detected, including 245 eclipsing binaries, 2324 rotating stars, 111 pulsating stars, and 629 eruptive stars. The results showed that flares from eclipsing binaries, rotating stars, eruptive stars, and pulsating stars have durations such that 90% are less than 2 h, and 91% of their amplitudes are less than 0.3. Flare events mainly occurred in the temperature range of 2000 K to 3000 K. The power-law indices of different types of variable stars were \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e1.72\u003c/mn\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmn\u003e0.025\u003c/mn\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e (eclipsing binaries), \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e1.82\u003c/mn\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmn\u003e0.062\u003c/mn\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e (rotating stars), \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e1.80\u003c/mn\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmn\u003e0.0116\u003c/mn\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e (eruptive stars), and \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e1.73\u003c/mn\u003e\u003cmo\u003e±\u003c/mo\u003e\u003cmn\u003e0.060\u003c/mn\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e (pulsating stars). Among them, the flare energy of pulsating stars is more concentrated in the high-energy range. In all samples, flare energies were distributed from \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e3.99\u003c/mn\u003e\u003cmo\u003e×\u003c/mo\u003e\u003cmsup\u003e\u003cmn\u003e10\u003c/mn\u003e\u003cmn\u003e31\u003c/mn\u003e\u003c/msup\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e erg to \u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmn\u003e6.18\u003c/mn\u003e\u003cmo\u003e×\u003c/mo\u003e\u003cmsup\u003e\u003cmn\u003e10\u003c/mn\u003e\u003cmn\u003e38\u003c/mn\u003e\u003c/msup\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e erg. The LAMOST DR9 low-resolution spectral survey has provided H\u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmi\u003eα\u003c/mi\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e equivalent widths for 398 variable stars. By utilizing these H\u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmi\u003eα\u003c/mi\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e equivalent widths, we have determined the stellar activity of the variable stars and confirmed a positive correlation between the flare energy and H\u003cinline-formula\u003e\u003cmath xmlns=\"http://www.w3.org/1998/Math/MathML\" display=\"inline\"\u003e\u003csemantics\u003e\u003cmi\u003eα\u003c/mi\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e equivalent width.","source":"DOAJ","year":2023,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe9050227","url":"https://www.mdpi.com/2218-1997/9/5/227","is_open_access":true,"published_at":"","score":67},{"id":"doaj_10.3390/universe9010044","title":"Dependence of Freeze-Out Parameters on Collision Energies and Cross-Sections","authors":[{"name":"Muhammad Waqas"},{"name":"Atef AbdelKader"},{"name":"Muhammad Ajaz"},{"name":"Abdel Nasser Tawfik"},{"name":"Zafar Wazir"},{"name":"Abd Al Karim Haj Ismail"},{"name":"Shi Jun Luo"},{"name":"Hafsa Zar Khan"}],"abstract":"We analyzed the transverse momentum spectra (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003ep\u003c/mi\u003e\u003cmi\u003eT\u003c/mi\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e) reported by the NA61/SHINE and NA49 experiments in inelastic proton–proton (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003ep\u003c/mi\u003e\u003cmi\u003ep\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e) and central Lead–Lead (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003eP\u003c/mi\u003e\u003cmi\u003eb\u003c/mi\u003e\u003cmo\u003e−\u003c/mo\u003e\u003cmi\u003eP\u003c/mi\u003e\u003cmi\u003eb\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e), Argon–Scandium (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003eA\u003c/mi\u003e\u003cmi\u003er\u003c/mi\u003e\u003cmo\u003e−\u003c/mo\u003e\u003cmi\u003eS\u003c/mi\u003e\u003cmi\u003ec\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e), and Beryllium–Beryllium (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmrow\u003e\u003cmi\u003eB\u003c/mi\u003e\u003cmi\u003ee\u003c/mi\u003e\u003cmo\u003e−\u003c/mo\u003e\u003cmi\u003eB\u003c/mi\u003e\u003cmi\u003ee\u003c/mi\u003e\u003c/mrow\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e) collisions with the Blast-wave model with Boltzmann–Gibbs (BWBG) statistics. The BGBW model was in good agreement with the experimental data. We were able to extract the transverse flow velocity (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003eβ\u003c/mi\u003e\u003cmi\u003eT\u003c/mi\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e), the kinetic freeze-out temperature (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003eT\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e), and the kinetic freeze-out volume (\u003ci\u003eV\u003c/i\u003e) from the \u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003ep\u003c/mi\u003e\u003cmi\u003eT\u003c/mi\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e spectra using the BGBW model. Furthermore, we also obtained the initial temperature (\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003eT\u003c/mi\u003e\u003cmi\u003ei\u003c/mi\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e) and the mean transverse momentum (\u003c\u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003ep\u003c/mi\u003e\u003cmi\u003eT\u003c/mi\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e\u003e) by the alternative method. We observed that \u003cinline-formula\u003e\u003cmath display=\"inline\" xmlns=\"http://www.w3.org/1998/Math/MathML\"\u003e\u003csemantics\u003e\u003cmsub\u003e\u003cmi\u003eT\u003c/mi\u003e\u003cmn\u003e0\u003c/mn\u003e\u003c/msub\u003e\u003c/semantics\u003e\u003c/math\u003e\u003c/inline-formula\u003e increases with increasing collision energy and collision cross-section, representing the colliding system’s size. The transverse flow velocity was observed to remain invariant with increasing collision energy, while it showed a random change with different collision cross-sections. In the same way, the kinetic freeze-out volume and mean transverse momentum increased with an increase in collision energy or collision cross-section. The same behavior was also seen in the freeze-out temperature, which increased with increasing collision cross-sections. At chemical freeze-out, we also determined both the chemical potential and temperature and compared these with the hadron resonance gas model (HRG) and different experimental data. We report that there is an excellent agreement with the HRG model and various experiments, which reveals the ability of the fit function to manifest features of the chemical freeze-out.","source":"DOAJ","year":2023,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe9010044","url":"https://www.mdpi.com/2218-1997/9/1/44","is_open_access":true,"published_at":"","score":67},{"id":"doaj_10.3390/universe9060280","title":"Modeling the Topside Ionosphere Effective Scale Height through In Situ Electron Density Observations by Low-Earth-Orbit Satellites","authors":[{"name":"Alessio Pignalberi"},{"name":"Michael Pezzopane"},{"name":"Tommaso Alberti"},{"name":"Igino Coco"},{"name":"Giuseppe Consolini"},{"name":"Giulia D’Angelo"},{"name":"Paola De Michelis"},{"name":"Fabio Giannattasio"},{"name":"Bruno Nava"},{"name":"Mirko Piersanti"},{"name":"Roberta Tozzi"}],"abstract":"In this work, we aim to characterize the effective scale height at the ionosphere F2-layer peak (\u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e) by using in situ electron density (\u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e) observations by Langmuir Probes (LPs) onboard the China Seismo-Electromagnetic Satellite (CSES—01). CSES—01 is a sun-synchronous satellite orbiting at an altitude of ~500 km, with descending and ascending nodes at ~14:00 local time (LT) and ~02:00 LT, respectively. Calibrated CSES—01 LPs \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e observations for the years 2019–2021 provide information in the topside ionosphere, whereas the International Reference Ionosphere model (IRI) provides \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e values at the F2-layer peak altitude for the same time and geographical coordinates as CSES—01. CSES—01 and IRI \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e datasets are used as anchor points to infer \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e by assuming a linear scale height in the topside representation given by the NeQuick model. COSMIC/FORMOSAT—3 (COSMIC—1) radio occultation (RO) data are used to constrain the vertical gradient of the effective scale height in the topside ionosphere in the linear approximation. With the CSES—01 dataset, we studied the global behavior of \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e for daytime (~14:00 LT) and nighttime (~02:00 LT) conditions, different seasons, and low solar activity. Results from CSES—01 observations are compared with those obtained through Swarm B satellite \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e-calibrated measurements and validated against those from COSMIC—1 RO for similar diurnal, seasonal, and solar activity conditions. \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e values modeled by using CSES—01 and Swarm B-calibrated observations during daytime both agree with corresponding values obtained directly from COSMIC—1 RO profiles. Differently, \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e modeling for nighttime conditions deserves further investigation because values obtained from both CSES—01 and Swarm B-calibrated observations show remarkable and spatially localized differences compared to those obtained through COSMIC—1. Most of the \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e mismodeling for nighttime conditions can probably to be attributed to a sub-optimal spatial representation of the F2-layer peak density made by the underlying IRI model. For comparison, \u003ci\u003eH\u003c/i\u003e\u003csub\u003e0\u003c/sub\u003e values obtained with non-calibrated CSES—01 and Swarm B \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e observations are also calculated and discussed. The methodology developed in this study for the topside effective scale height modeling turns out to be applicable not only to CSES—01 satellite data but to any in situ \u003ci\u003eN\u003c/i\u003e\u003csub\u003ee\u003c/sub\u003e observation by low-Earth-orbit satellites orbiting in the topside ionosphere.","source":"DOAJ","year":2023,"language":"","subjects":["Elementary particle physics"],"doi":"10.3390/universe9060280","url":"https://www.mdpi.com/2218-1997/9/6/280","is_open_access":true,"published_at":"","score":67},{"id":"arxiv_2305.02357","title":"Cosmological phase transitions: from perturbative particle physics to gravitational waves","authors":[{"name":"Peter Athron"},{"name":"Csaba Balázs"},{"name":"Andrew Fowlie"},{"name":"Lachlan Morris"},{"name":"Lei Wu"}],"abstract":"Gravitational waves (GWs) were recently detected for the first time. This revolutionary discovery opens a new way of learning about particle physics through GWs from first-order phase transitions (FOPTs) in the early Universe. FOPTs could occur when new fundamental symmetries are spontaneously broken down to the Standard Model and are a vital ingredient in solutions of the matter anti-matter asymmetry problem. The purpose of our work is to review the path from a particle physics model to GWs, which contains many specialized parts, so here we provide a timely review of all the required steps, including: (i) building a finite-temperature effective potential in a particle physics model and checking for FOPTs; (ii) computing transition rates; (iii) analyzing the dynamics of bubbles of true vacuum expanding in a thermal plasma; (iv) characterizing a transition using thermal parameters; and, finally, (v) making predictions for GW spectra using the latest simulations and theoretical results and considering the detectability of predicted spectra at future GW detectors. For each step we emphasize the subtleties, advantages and drawbacks of different methods, discuss open questions and review the state-of-art approaches available in the literature. This provides everything a particle physicist needs to begin exploring GW phenomenology.","source":"arXiv","year":2023,"language":"en","subjects":["hep-ph","astro-ph.CO"],"doi":"10.1016/j.ppnp.2023.104094","url":"https://arxiv.org/abs/2305.02357","pdf_url":"https://arxiv.org/pdf/2305.02357","is_open_access":true,"published_at":"2023-05-03T18:00:08Z","score":67},{"id":"arxiv_2312.14190","title":"Machine Learning for Anomaly Detection in Particle Physics","authors":[{"name":"Vasilis Belis"},{"name":"Patrick Odagiu"},{"name":"Thea Klæboe Årrestad"}],"abstract":"The detection of out-of-distribution data points is a common task in particle physics. It is used for monitoring complex particle detectors or for identifying rare and unexpected events that may be indicative of new phenomena or physics beyond the Standard Model. Recent advances in Machine Learning for anomaly detection have encouraged the utilization of such techniques on particle physics problems. This review article provides an overview of the state-of-the-art techniques for anomaly detection in particle physics using machine learning. We discuss the challenges associated with anomaly detection in large and complex data sets, such as those produced by high-energy particle colliders, and highlight some of the successful applications of anomaly detection in particle physics experiments.","source":"arXiv","year":2023,"language":"en","subjects":["physics.data-an","cs.LG","hep-ex","quant-ph"],"doi":"10.1016/j.revip.2024.100091","url":"https://arxiv.org/abs/2312.14190","pdf_url":"https://arxiv.org/pdf/2312.14190","is_open_access":true,"published_at":"2023-12-20T12:40:00Z","score":67}],"total":3955550,"page":1,"page_size":20,"sources":["CrossRef","DOAJ","arXiv","Semantic Scholar"],"query":"Elementary particle physics"}