-
Thermodynamic approach to proton number fluctuations in baryon-rich heavy-ion matter created at moderate collision energies Phys. Lett. B (IF 4.95) Pub Date : 2022-08-05 Volodymyr Vovchenko, Volker Koch
We develop a framework to relate proton number cumulants measured in heavy-ion collisions within a momentum space acceptance to the susceptibilities of baryon number, assuming that particles are emitted from a fireball with uniform distribution of temperature and baryochemical potential, superimposed on a hydrodynamic flow velocity profile. The rapidity acceptance dependence of proton cumulants measured
-
Method to observe the JP = 2+ partner of the X0(2866) in the B+ → D+D−K+ reaction Phys. Lett. B (IF 4.95) Pub Date : 2022-08-04 M. Bayar, E. Oset
We propose a method based on the moments of the D−K+ mass distribution in the B+→D+D−K+ decay to disentangle the contribution of the 2+ state, partner of X0(2900) in the D¯⁎K⁎ picture for this resonance. Some of these moments show the interference patterns of the X1(2900) and X0(2900) with the 2+ state, which provide a clearer signal of the 2+ resonance than the 2+ signal alone. The construction of
-
Hadrophilic Light Dark Matter from the Atmosphere Phys. Lett. B (IF 4.95) Pub Date : 2022-08-04 Carlos A. Arguëlles, V Muñoz, Ian M. Shoemaker, Volodymyr Takhistov
Light sub-GeV dark matter (DM) constitutes an underexplored target, beyond the optimized sensitivity of typical direct DM detection experiments. We comprehensively investigate hadrophilic light DM produced from cosmic-ray collisions with the atmosphere. The resulting relativistic DM, origi- nating from meson decays, can be efficiently observed in variety of experiments, such as XENON1T. We include
-
N=2 resonant superalgebra for supergravity Phys. Lett. B (IF 4.95) Pub Date : 2022-08-04 Remigiusz Durka, Krzysztof M. Graczyk
We present new superalgebra for N=2 D=3,4 supergravity theory endowed with the U(1) generator. The superalgebra is rooted in the so-called Soroka-Soroka algebra and spanned by the Lorentz Jab and Lorentz-like Zab, translation Pa and T generators, as well as two supercharges QαI. It is the only possible realization for a given generator content. We construct a corresponding 3D Chern-Simons supergravity
-
Living on the Fermi Edge: On Baryon Transport and Fermi Condensation Phys. Lett. B (IF 4.95) Pub Date : 2022-08-04 Andreas Trautner
The transfer function of the baryon power spectrum from redshift z≈1100 to today has recently been, for the first time, determined from data by Pardo and Spergel. We observe a remarkable coincidence between this function and the transport function of a cold ideal Fermi gas at different redshifts. Guided by this, we unveil an infinite set of critical temperatures of the relativistic ideal Fermi gas
-
Transverse momentum structure of proton within the basis light-front quantization framework Phys. Lett. B (IF 4.95) Pub Date : 2022-08-02
We obtain the leading-twist valence quark transverse-momentum-dependent parton distribution functions (TMD PDFs) for the proton within the basis light-front quantization (BLFQ) framework. Our results are consistent with lattice QCD calculations and our previous results for the collinear limit. We also obtain consistency with the Soffer-type bounds. Within our approach, we find that six T-even TMDs
-
Single neutron transfer on 23Ne and its relevance for the pathway of nucleosynthesis in astrophysical X-ray bursts Phys. Lett. B (IF 4.95) Pub Date : 2022-08-02 G. Lotay, J. Henderson, W.N. Catford, F.A. Ali, J. Berean, N. Bernier, S.S. Bhattacharjee, M. Bowry, R. Caballero-Folch, B. Davids, T.E. Drake, A.B. Garnsworthy, F. Ghazi Moradi, S.A. Gillespie, B. Greaves, G. Hackman, S. Hallam, D. Hymers, M. Williams
We present new experimental measurements of resonance strengths in the astrophysical 23Al(p,γ)24Si reaction, constraining the pathway of nucleosynthesis beyond 22Mg in X-ray burster scenarios. Specifically, we have performed the first measurement of the (d,p) reaction using a radioactive beam of 23Ne to explore levels in 24Ne, the mirror analog of 24Si. Four strong single-particle states were observed
-
Extended Bethe-Richardson-Gaudin ansatzes for the solution of a mean-field plus separable pairing model with three non-degenerate j-orbits Phys. Lett. B (IF 4.95) Pub Date : 2022-08-02 Feng Pan, Yingxin Wu, Shengze Guan, Zhibo Qu, Lianrong Dai, J.P. Draayer
Based on the Bethe-Richardson-Gaudin ansatz for the standard pairing model, extended Bethe- Richardson-Gaudin ansatzes for eigenvectors of a spherical mean-field plus separable pairing model with three non-degenerate j-orbits are proffered. It is shown that the number of variables appearing in the general extended ansatz eigenvectors for given number of pairs N is N(N+1)/2. More importantly, when one
-
A New Probe of Relic Neutrino Clustering using Cosmogenic Neutrinos Phys. Lett. B (IF 4.95) Pub Date : 2022-08-01 Vedran Brdar, P.S. Bhupal Dev, Ryan Plestid, Amarjit Soni
We propose a new probe of cosmic relic neutrinos (CνB) using their resonant scattering against cosmogenic neutrinos. Depending on the lightest neutrino mass and the energy spectrum of the cosmogenic neutrino flux, a Standard Model vector meson (such as a hadronic ρ) resonance can be produced via νν¯ annihilation. This leads to a distinct absorption feature in the cosmogenic neutrino flux at an energy
-
Upper limit on the proton lifetime in minimal supersymetric SU(5) Phys. Lett. B (IF 4.95) Pub Date : 2022-08-01 Jason L. Evans, Tsutomu T. Yanagida
In minimal supersymmetric SU(5) models, the proton can decay through dimension 5 operators. Since this decay depends directly on the supersymmetric soft masses, it will be constrained by other observables which depend on the soft masses, such as the Higgs mass and the dark matter relic density. In this work, we will examine the upper limit on the proton lifetime in minimal supersymmetric SU(5) with
-
Searches for Heavy Resonances with Substructure Annu. Rev. Nucl. Part. Sci. (IF 17.727) Pub Date : 2022-08-01 Petar Maksimović
In the past decade, the Large Hadron Collider (LHC) has probed a higher energy scale than ever before. Most models of physics beyond the standard model (BSM) predict the production of new heavy particles; the LHC results have excluded lower masses of such particles. This makes the high-mass regions especially interesting for current and future searches. In most BSM scenarios of interest, the new heavy
-
Bayesian inference of the fluctuating proton shape Phys. Lett. B (IF 4.95) Pub Date : 2022-07-29 Heikki Mäntysaari, Björn Schenke, Chun Shen, Wenbin Zhao
Using Bayesian inference, we determine probabilistic constraints on the parameters describing the fluctuating structure of protons at high energy. We employ the color glass condensate framework supplemented with a model for the spatial structure of the proton, along with experimental data from the ZEUS and H1 Collaborations on coherent and incoherent diffractive J/ψ production in e+p collisions at
-
Impact of tensor force on quantum shell effects in quasifission reactions Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Liang Li, Lu Guo, K. Godbey, A.S. Umar
Quantum shell effects drive many aspects of many-body quantal systems and their interactions. Among these are the quasifission reactions that impede the formation of a compound nucleus in superheavy element (SHE) searches. Fragment production in quasifission is influenced by shell effects as a nontrivial manifestation of microscopic dynamics hindering the full equilibration of the composite system
-
Nucleon-nucleon interaction in the S13-D13 coupled channel for a pion mass of 469 MeV Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Qian-Qian Bai, Chun-Xuan Wang, Yang Xiao, Jun-Xu Lu, Li-Sheng Geng
In this work, we apply the relativistic chiral nuclear force to describe the state-of-the-art lattice simulations of the nucleon-nucleon scattering amplitude. In particular, we focus on the S13-D13 coupled channel for a pion mass of 469 MeV. We show that at leading order the relativistic chiral nuclear force can only describe δ3S1 and ε1 up to Tlab.≈10 MeV, while at the next-to-leading order it can
-
Comments on non-Abelian T-duals and their holographic description Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Paul Merrikin, Ricardo Stuardo
We present three different Type IIB AdS4 Supergravity solutions, derived using the electrostatic-like problem formalism which preserves 8 Poincaré Supercharges. Two of these solutions correspond to the Abelian and non-Abelian T-duals of a Type IIA background, obtained from the dimensional reduction of 11D AdS×4S7 Supergravity. The third solution is a new background with some special properties. We
-
Cosmological perturbations in the spatially covariant gravity with a dynamical lapse function Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Xue-Zheng Zhu, Yang Yu, Xian Gao
We investigate the scalar perturbations in a class of spatially covariant gravity theory with a dynamical lapse function. Generally, there are two scalar degrees of freedom due to the presence of the velocity of the lapse function. We treat the scalar perturbations as analogues of those in a two-field inflationary mode, in which one is light mode and the other is the heavy mode. This is justified by
-
Search for neutrinoless quadruple beta decay of 136Xe in XMASS-I Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28
A search for the neutrinoless quadruple beta decay of 136Xe was conducted with the liquid-xenon detector XMASS-I using 327 kg ×800.0 days of the exposure. The pulse shape discrimination based on the scintillation decay time constant which distinguishes γ-rays including the signal and β-rays was used to enhance the search sensitivity. No significant signal excess was observed from the energy spectrum
-
Controlling extrapolations of nuclear properties with feature selection Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Rodrigo Navarro Pérez, Nicolas Schunck
Predictions of nuclear properties far from measured data are inherently inaccurate because of uncertainties in our knowledge of nuclear forces and in our treatment of quantum many-body effects in strongly-interacting systems. While the model bias can be directly calculated when experimental data is available, only an estimate can be made in the absence of such measurements. Current approaches to compute
-
Enhancement of the W boson mass in the Georgi-Machacek model Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Poulami Mondal
The recent CDF-II measurement of the mass of the W boson shows a significant tension with the Standard Model (SM) expectation, even when averaged with earlier measurements. The tension can be explained in the framework of any beyond-SM dynamics that contributes substantially to the oblique S and T parameters. As a typical example of such beyond-SM physics, we try to explain the tension in the framework
-
Tree level Majorana neutrino mass from Type-1 × Type-2 Seesaw mechanism with Dark Matter Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Chi-Fong Wong, Yang Chen
We propose a type of hybrid Seesaw model that combines Type-1 and Type-2 Seesaw mechanism in multiplicative way to generate tree level Majorana neutrino mass and provides a Dark Matter candidate. The model extends the Standard Model by extra gauge symmetry U(1)D and hidden sector consisted of chiral fermions and additional scalar fields. After spontaneous symmetry breaking, light neutrino masses are
-
Transport coefficients of heavy quarkonia comparing with heavy quark coefficients Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 Juhee Hong, Su Houng Lee
We revisit the transport coefficients of heavy quarkonia moving in high-temperature QCD plasmas. The thermal width and mass shift for heavy quarkonia are closely related to the momentum diffusion coefficient and its dispersive counterpart for heavy quarks, respectively. For quarkonium at rest in plasmas the longitudinal gluon part of the color-singlet self-energy diagram is sufficient to determine
-
Running of the spectral index and inflationary dynamics of F(R) gravity Phys. Lett. B (IF 4.95) Pub Date : 2022-07-28 S.D. Odintsov, V.K. Oikonomou
In this work we shall provide a model-independent general calculation of the running of the spectral index for vacuum F(R) gravities. We shall exploit the functional form of the spectral index and of the tensor-to-scalar ratio in order to present a general ns−r relation for vacuum F(R) gravity theories. As we show, viable F(R) gravity theories can be classified to two classes of models regarding their
-
Baryogenesis in non-extensive Tsallis Cosmology Phys. Lett. B (IF 4.95) Pub Date : 2022-07-27 Giuseppe Gaetano Luciano, Jaume Giné
Non-extensive Tsallis thermostatistics is a widespread paradigm to describe large-scale gravitational systems. In this work we use Tsallis Cosmology to study thermodynamic gravity and derive modified Friedmann equations. We show that corrections induced by non-extensivity affect the Hubble function evolution during the radiation-dominated epoch. In turn, this leads to non-trivial modifications of the
-
Laser-assisted charged Higgs boson decay in Two Higgs Doublet Model - type II Phys. Lett. B (IF 4.95) Pub Date : 2022-07-27 S. Mouslih, M. Jakha, S. El Asri, S. Taj, B. Manaut, R. Benbrik, E.A. Siher
In this paper, we investigate the charged Higgs boson decay in the context of the type-II two-Higgs-doublet model in the presence of a circularly polarized electromagnetic field of laser radiation. The calculations are performed by adopting the Furry picture approach of non-perturbative interactions with the external electromagnetic field. Using the method of exact solutions for charged particles states
-
An approach to the quasi-equilibrium state of a self-gravitating system Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Azizollah Azizi, Amir A. Khodahami
We propose an approach to find out when a self-gravitating system is in a quasi-equilibrium state. This approach is based on a comparison between two quantities identifying behavior of the system: a measure of interactions intensity and the area. Gravitational scattering cross section of the system, defined by using the two-particle scattering cross section formula, is considered as the measure of
-
Neutrinoless double beta decay in the minimal type-I seesaw model: How the enhancement or cancellation happens? Phys. Lett. B (IF 4.95) Pub Date : 2022-07-26 Dong-Liang Fang, Yu-Feng Li, Yi-Yu Zhang
We discuss the contribution of right-handed neutrinos (RHNs) to the effective neutrino mass of the neutrinoless double beta decay within the minimal type-I seesaw model using the intrinsic seesaw relation of neutrino mass and mixing parameters and the relative mass dependence of the nuclear matrix elements. In the viable parameter space, we find the possibilities of both the enhancement and cancellation
-
Electroweak corrections to dark matter direct detection in the dark singlet phase of the N2HDM Phys. Lett. B (IF 4.95) Pub Date : 2022-07-25 Seraina Glaus, Margarete Mühlleitner, Jonas Müller, Shruti Patel, Rui Santos
Direct detection experiments are the only way to obtain indisputable evidence of the existence of dark matter (DM) in the form of a particle. These experiments have been used to probe many extensions of the Standard Model (SM) that provide DM candidates. Experimental results like the latest ones from XENON1T lead to severe constraints in the parameter space of many of the proposed models. In a simple
-
Chaos bound and its violation in charged Kiselev black hole Phys. Lett. B (IF 4.95) Pub Date : 2022-07-25 Chuanhong Gao, Deyou Chen, Chengye Yu, Peng Wang
The chaos bound in the near-horizon regions has been studied through the expansions of the metric functions on the horizon. In this paper, we investigate the chaos bound in the near-horizon region and at a certain distance from the horizon of a charged Kiselev black hole. The value of the Lyapunov exponent is accurately calculated by a Jacobian matrix. The angular momentum of a charged particle around
-
First observation of the decay of the 13/2+ isomer in 183Hg and B(M2) systematics of neutron transitions across the nuclear chart Phys. Lett. B (IF 4.95) Pub Date : 2022-07-25 H. Huang, W.Q. Zhang, A.N. Andreyev, Z. Liu, D. Seweryniak, Z.H. Li, C.Y. Guo, A.E. Barzakh, P. Van Duppen, B. Andel, S. Antalic, M. Block, A. Bronis, M.P. Carpenter, P. Copp, J.G. Cubiss, B. Ding, D.T. Doherty, X.H. Zhou
The decay of the 13/2+ isomeric state in 183Hg was observed for the first time following the α decay of the 13/2+ isomer in 187Pb produced in the 142Nd(50Cr, 2p3n) reaction. Using α−γ delayed coincidence measurements, the half-life of this isomer was measured to be 290(30) μs. This isomer is proposed to deexcite by an unobserved low-energy M2 transition to the known 9/2− member of a strongly prolate-deformed
-
Lifetime measurements in 80Br and a new region for observation of chiral electromagnetic selection rules Phys. Lett. B (IF 4.95) Pub Date : 2022-07-25 R.J. Guo, S.Y. Wang, R. Schwengner, W.Z. Xu, B. Qi, C. Liu, A. Rohilla, F. Dönau, T. Servene, H. Schnare, J. Reif, G. Winter, L. Käubler, H. Prade, S. Skoda, J. Eberth, H.G. Thomas, F. Becker, D. Schwalm
Level lifetimes for the candidate chiral doublet bands of 80Br were extracted by means of the Doppler-shift attenuation method. The absolute transition probabilities derived from the lifetimes agree well with the M1 and E2 chiral electromagnetic selection rules, and are well reproduced by the triaxial particle rotor model calculations. Such good agreements among the experimental data, selection rules
-
DeWitt boundary condition is consistent in Hořava-Lifshitz quantum gravity Phys. Lett. B (IF 4.95) Pub Date : 2022-07-22 Hiroki Matsui, Shinji Mukohyama, Atsushi Naruko
In quantum cosmology the DeWitt boundary condition is a proposal to set the wave function of the universe to vanish at the classical big-bang singularity. In this Letter, we show that in many gravitational theories including general relativity, the DeWitt wave function does not take a desired form once tensor perturbations around a homogeneous and isotropic closed universe are taken into account: anisotropies
-
Leptoquark-assisted singlet-mediated di-Higgs production at the LHC Phys. Lett. B (IF 4.95) Pub Date : 2022-07-22 Arvind Bhaskar, Debottam Das, Bibhabasu De, Subhadip Mitra, Aruna Kumar Nayak, Cyrin Neeraj
At the LHC, the gluon-initiated processes are considered to be the primary source of di-Higgs production. However, in the presence of a new resonance, the light-quark initiated processes can also contribute significantly. In this letter, we look at the di-Higgs production mediated by a new singlet scalar. The singlet is produced in both quark-antiquark and gluon fusion processes through loops involving
-
W boson mass anomaly and grand unification Phys. Lett. B (IF 4.95) Pub Date : 2022-07-16 Jason L. Evans, Tsutomu T. Yanagida, Norimi Yokozaki
It is known that the recently reported shift of the W boson mass can be easily explained by an SU(2)L triplet Higgs boson with a zero hypercharge if it obtains a vacuum expectation value (VEV) of O(1) GeV. Surprisingly, the addition of a TeV scale complex triplet Higgs boson to the standard model (SM) leads to a precise unification of the gauge couplings at around 1014 GeV. We consider that it is a
-
Broken axial symmetry as essential feature for a consistent modelling of various observables in heavy nuclei Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 E. Grosse, A.R. Junghans
Although most nuclear spectroscopy as well as atomic hyperfine structure data do not deliver accurate information on nuclear axiality the ad-hoc assumption of symmetry about one axis found widespread use in nuclear model calculations. In the theoretical interpretation of nuclear properties as well as in the analysis of experimental data triaxiality was considered – if at all – only for some, often
-
Constraining equation of state of nuclear matter by charge-changing cross section measurements of mirror nuclei Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Jun-Yao Xu, Zheng-Zheng Li, Bao-Hua Sun, Yi-Fei Niu, Xavier Roca-Maza, Hiroyuki Sagawa, Isao Tanihata
The nuclear symmetry energy plays a key role in determining the equation of state (EoS) of dense, neutron-rich matter, which connects the atomic nuclei with the hot and dense matter in universe, thus has been the subject of intense investigations in laboratory experiments, astronomy observations and theories. Various probes have been proposed to constrain the symmetry energy and its density dependence
-
Instability of hairy black holes in regularized 4-dimensional Einstein-Gauss-Bonnet gravity Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Shinji Tsujikawa
In regularized 4-dimensional Einstein-Gauss-Bonnet (EGB) gravity derived from a Kaluza-Klein reduction of higher-dimensional EGB theory, we study the existence and stability of black hole (BH) solutions on a static and spherically symmetric background. We show that asymptotically-flat hairy BH solutions realized for a spatially-flat maximally symmetric internal space are unstable against linear perturbations
-
Thakurta metric does not describe a cosmological black hole Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Tomohiro Harada, Hideki Maeda, Takuma Sato
Recently, the Thakurta metric has been adopted as a model of primordial black holes. We show that the spacetime described by this metric has neither black-hole event horizon nor black-hole trapping horizon and involves the violation of all the standard energy conditions as a solution of the Einstein equation. Therefore, this metric does not describe a cosmological black hole in the early universe.
-
Entanglement entropy in a four-dimensional cosmological background Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 V. Giantsos, N. Tetradis
We compute the holographic entanglement entropy of a thermalized CFT on a time-dependent background in four dimensions. We consider a slab configuration extending beyond the cosmological horizon of a Friedmann-Lemaitre-Robertson-Walker metric. We identify a volume term that corresponds to the thermal entropy of the CFT, as well as terms proportional to the proper area of the entangling surface which
-
Non-resonant diagrams for single production of top and bottom partners Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Avik Roy, Timothy Andeen
The search for top and bottom partners is a major focus of analyses at both the ATLAS and CMS experiments. When singly produced, these vector-like partners of the Standard Model third generation quarks retain a sizeable cross-section that makes them attractive search candidates in their respective topologies. While most efforts have concentrated on the resonant mode for single production of these hypothetical
-
High-spin levels, β− decay and monopole effects in A = 128 hole nuclei near 132Sn Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21 Han-Kui Wang, Zhi-Hong Li, You-Bao Wang, Bowen Jiang
The high-spin levels and β− decay in neutron-rich hole nuclei of A=128 are studied by large-scale shell-model calculations with the extended pairing plus multipole-multipole force model. The excited energy and logft values of β− decay are predicted in the final states of 128Ag, 128Cd, and 128In by the cascaded decays calculated in A=128 hole nuclei. The 16+ level of 128Cd is predicted as a spin-trap
-
General balance functions of identified charged hadron pairs of (π,K,p) in Pb–Pb collisions at sNN= 2.76 TeV Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21
First measurements of balance functions (BFs) of all combinations of identified charged hadron (π,K,p) pairs in Pb–Pb collisions at sNN=2.76 TeV recorded by the ALICE detector are presented. The BF measurements are carried out as two-dimensional differential correlators versus the relative rapidity (Δy) and azimuthal angle (Δφ) of hadron pairs, and studied as a function of collision centrality. The
-
KS0KS0 and KS0K± femtoscopy in pp collisions at s=5.02 and 13 TeV Phys. Lett. B (IF 4.95) Pub Date : 2022-07-21
Femtoscopic correlations with the particle pair combinations KS0KS0 and KS0K± are studied in pp collisions at s=5.02 and 13 TeV by the ALICE experiment. At both energies, boson source parameters are extracted for both pair combinations, by fitting models based on Gaussian size distributions of the sources, to the measured two-particle correlation functions. The interaction model used for the KS0KS0
-
Optimal condition for the production of heavy and superheavy neutron-rich isotopes with multinucleon transfer reaction Phys. Lett. B (IF 4.95) Pub Date : 2022-07-16 Xiao Jun Bao
Production cross sections of multinucleon transfer reactions are systematically investigated in the framework of the improved DNS model combined with statistical GEMINI++ model. The calculated isotone distribution of final products in 20 reaction systems at collision energies above the Coulomb barrier are roughly in agreement with experimental data for a wide range of transfers, respectively, especially
-
Soft photon bremsstrahlung at next-to-leading power Phys. Lett. B (IF 4.95) Pub Date : 2022-07-20 D. Bonocore, A. Kulesza
The emission of soft radiation provides a fundamental probe of the consistency of the underlying quantum field theory. Correspondingly, the measurement of the soft photon bremsstrahlung, such as the one proposed with the planned future upgrade of the ALICE experiment at the LHC, is of great interest. In this letter we explore the possibility to implement analytic techniques that have been recently
-
Saha equilibrium for metastable bound states and dark matter freeze-out Phys. Lett. B (IF 4.95) Pub Date : 2022-07-20 Tobias Binder, Anastasiia Filimonova, Kalliopi Petraki, Graham White
The formation and decay of metastable bound states can significantly decrease the thermal-relic dark matter density, particularly for dark matter masses around and above the TeV scale. Incorporating bound-state effects in the dark matter thermal decoupling requires in principle a set of coupled Boltzmann equations for the bound and unbound species. However, decaying bound states attain and remain in
-
Self-dual Maxwell-Chern-Simons solitons in a parity-invariant scenario Phys. Lett. B (IF 4.95) Pub Date : 2022-07-20 W.B. De Lima, P. De Fabritiis
We present a self-dual parity-invariant U(1)×U(1) Maxwell-Chern-Simons scalar QED3. We show that the energy functional admits a Bogomol'nyi-type lower bound, whose saturation gives rise to first order self-duality equations. We perform a detailed analysis of this system, discussing its main features and exhibiting explicit numerical solutions corresponding to finite-energy topological vortices and
-
Type III neutrino seesaw, freeze-in long-lived dark matter, and the W mass shift Phys. Lett. B (IF 4.95) Pub Date : 2022-07-20 Ernest Ma
In the framework of seesaw neutrino masses from heavy fermion triplets (Σ+,Σ0,Σ−), the addition of a light fermion singlet N and a heavy scalar triplet (ρ+,ρ0,ρ−) has some important consequences. The new particles are assumed to be odd under a new Z2 symmetry which is only broken softly, both explicitly and spontaneously. With N−Σ0 mixing, freeze-in long-lived dark matter through Higgs decay becomes
-
Singlet extensions and W boson mass in light of the CDF II result Phys. Lett. B (IF 4.95) Pub Date : 2022-07-20 Kodai Sakurai, Fuminobu Takahashi, Wen Yin
Recently, the CDF collaboration has reported the precise measurement of the W boson mass, MW=80433.5±9.4MeV, based on 8.8 fb−1 of s=1.96 TeV pp¯ collision data from the CDF II detector at the Fermilab Tevatron. This is about 7σ away from the Standard Model prediction, MWSM=80357±6MeV. Such a large discrepancy may be partially due to exotic particles that radiatively alter the relation between the W
-
Deeply learned preselection of Higgs dijet decays at future lepton colliders Phys. Lett. B (IF 4.95) Pub Date : 2022-07-14 So Chigusa, Shu Li, Yuichiro Nakai, Wenxing Zhang, Yufei Zhang, Jiaming Zheng
Future electron-positron colliders will play a leading role in the precision measurement of Higgs boson couplings which is one of the central interests in particle physics. Aiming at maximizing the performance to measure the Higgs couplings to the bottom, charm and strange quarks, we develop machine learning methods to improve the selection of events with a Higgs decaying to dijets. Our methods are
-
Three-generation super no-scale models in heterotic superstrings Phys. Lett. B (IF 4.95) Pub Date : 2022-07-19 Ioannis Florakis, John Rizos, Konstantinos Violaris-Gountonis
We derive the conditions for the one-loop contribution to the cosmological constant to be exponentially suppressed in a class of heterotic string compactifications with three generations of chiral matter, where supersymmetry is spontaneously broken à la Scherk-Schwarz. Using techniques of partial unfolding based on the Hecke congruence subgroup Γ0(2) of the modular group to extract the leading asymptotics
-
High-Energy Extragalactic Neutrino Astrophysics Annu. Rev. Nucl. Part. Sci. (IF 17.727) Pub Date : 2022-07-18 Naoko Kurahashi, Kohta Murase, Marcos Santander
The detection of an astrophysical flux of neutrinos in the TeV–PeV energy range by the IceCube Neutrino Observatory has opened new possibilities for the study of extreme cosmic accelerators. The apparent isotropy of the neutrino arrival directions favors an extragalactic origin for this flux, potentially created by a large population of distant sources. Recent evidence for the detection of neutrino
-
Data-driven evaluations of Euclidean windows to scrutinize hadronic vacuum polarization Phys. Lett. B (IF 4.95) Pub Date : 2022-07-18 G. Colangelo, A.X. El-Khadra, M. Hoferichter, A. Keshavarzi, C. Lehner, P. Stoffer, T. Teubner
In this paper, we discuss how windows in Euclidean time can be used to isolate the origin of potential conflicts between evaluations of the hadronic-vacuum-polarization (HVP) contribution to the anomalous magnetic moment of the muon in lattice QCD and from e+e−→hadrons cross-section data. We provide phenomenological comparison numbers evaluated from e+e−→hadrons data for the window quantities most
-
Impact of event activity variable on the ratio observables in isobar collisions Phys. Lett. B (IF 4.95) Pub Date : 2022-07-18 Jiangyong Jia, Gang Wang, Chunjian Zhang
The STAR isobar data of 96Ru+96Ru and 96Zr+96Zr collisions at sNN=200 GeV show that ratios of observables (RO) such as the multiplicity distribution, p(Nch), and the harmonic flow, vn, deviate from unity, when presented as a function of centrality, c [1]. These deviations have been attributed to the differences in the shape and radial profiles between 96Ru and 96Zr nuclei. In addition, the ratios RO(x)
-
Equivalence principle violation from large scale structure Phys. Lett. B (IF 4.95) Pub Date : 2022-07-14 Luciano Petruzziello
We explore the interplay between the equivalence principle and a generalization of the Heisenberg uncertainty relations known as extended uncertainty principle, that comprises the effects of spacetime curvature at large distances. Specifically, we observe that, when the modified uncertainty relations hold, the weak formulation of the equivalence principle is violated, since the inertial mass of quantum
-
Zinc finger structure determination by NMR: why zinc fingers can be a handful Prog. Nucl. Magn. Reson. Spectrosc. (IF 9.447) Pub Date : 2022-07-15 David Neuhaus
-
Mass measurements towards doubly magic 78Ni: Hydrodynamics versus nuclear mass contribution in core-collapse supernovae Phys. Lett. B (IF 4.95) Pub Date : 2022-07-16 S. Giraud, L. Canete, B. Bastin, A. Kankainen, A.F. Fantina, F. Gulminelli, P. Ascher, T. Eronen, V. Girard-Alcindor, A. Jokinen, A. Khanam, I.D. Moore, D.A. Nesterenko, F. de Oliveira Santos, H. Penttilä, C. Petrone, I. Pohjalainen, A. De Roubin, J. Äystö
We report the first high-precision mass measurements of the neutron-rich nuclei 74,75Ni and the clearly identified ground state of 76Cu, along with a more precise mass-excess value of 78Cu, performed with the double Penning trap JYFLTRAP at the Ion Guide Isotope Separator On-Line (IGISOL) facility. These new results lead to a quantitative estimation of the quenching for the N=50 neutron shell gap.
-
Probing WIMPs in space-based gravitational wave experiments Phys. Lett. B (IF 4.95) Pub Date : 2022-07-16 Bo-Qiang Lu, Cheng-Wei Chiang, Da Huang
Although searches for dark matter have lasted for decades, no convincing signal has been found without ambiguity in underground detections, cosmic ray observations, and collider experiments. We show by example that gravitational wave (GW) observations can be a supplement to dark matter detections if the production of dark matter follows a strong first-order cosmological phase transition. We explore
-
Leptoquarks with exactly stable protons Phys. Lett. B (IF 4.95) Pub Date : 2022-07-16 Joe Davighi, Admir Greljo, Anders Eller Thomsen
We explore a novel mechanism to restrict TeV-scale leptoquark interactions and render the proton exactly stable to all orders in the effective field theory expansion. A scalar condensate breaks a lepton-flavoured U(1)X gauge symmetry in the ultraviolet and generates neutrino masses, leaving a discrete Z9 or Z18 gauge symmetry in the infrared, forbidding ΔB=1 processes. This provides an elegant framework
-
Promises and challenges of high-energy vortex states collisions Prog. Part. Nucl. Phys. (IF 12.425) Pub Date : 2022-07-14 Igor P. Ivanov
Vortex states of photons, electrons, and other particles are non–plane-wave solutions of the corresponding wave equation with helicoidal wave fronts. These states possess an intrinsic orbital angular momentum with respect to the average propagation direction, which represents a new degree of freedom, previously unexplored in particle or nuclear collisions. Vortex states of photons, electrons, neutrons
-
Short-Lived Nuclides in the Early Solar System: Abundances, Origins, and Applications Annu. Rev. Nucl. Part. Sci. (IF 17.727) Pub Date : 2022-07-14 Andrew M. Davis
Several short-lived radionuclides (SLRs) were present in the first few million years of Solar System history. Their abundances have profound impact on the timing of stellar nucleosynthesis events prior to Solar System formation, chronology of events in the early Solar System, early solar activity, heating of early-formed planetesimals, and chronology of planet formation. Isotopic analytical techniques