Advances in High Energy Physics The latest articles from Hindawi Publishing Corporation © 2015 , Hindawi Publishing Corporation . All rights reserved. Can Tsallis Distribution Fit All the Particle Spectra Produced at RHIC and LHC? Wed, 29 Jul 2015 11:18:56 +0000 The Tsallis distribution has been tested to fit all the particle spectra at mid-rapidity from central events produced in d + Au, Cu + Cu, and Au + Au collisions at RHIC and p + Pb, Pb + Pb collisions at LHC. Even though there are strong medium effects in Cu + Cu and Au + Au collisions, the results show that the Tsallis distribution can be used to fit most of particle spectra in the collisions studied except in Au + Au collisions where some deviations are seen for proton and at low . In addition, as the Tsallis distribution can only fit part of the particle spectra produced in Pb + Pb collisions where is up to 20 GeV/c, a new formula with one more fitting degree of freedom is proposed in order to reproduce the entire region. H. Zheng and Lilin Zhu Copyright © 2015 H. Zheng and Lilin Zhu. All rights reserved. On Pseudorapidity Distribution and Speed of Sound in High Energy Heavy Ion Collisions Based on a New Revised Landau Hydrodynamic Model Wed, 29 Jul 2015 09:58:52 +0000 We propose a new revised Landau hydrodynamic model to study systematically the pseudorapidity distributions of charged particles produced in heavy ion collisions over an energy range from a few GeV to a few TeV per nucleon pair. The interacting system is divided into three sources, namely, the central, target, and projectile sources, respectively. The large central source is described by the Landau hydrodynamic model and further revised by the contributions of the small target/projectile sources. The modeling results are in agreement with the available experimental data at relativistic heavy ion collider, large hadron collider, and other energies for different centralities. The value of square speed of sound parameter in different collisions has been extracted by us from the widths of rapidity distributions. Our results show that, in heavy ion collisions at energies of the two colliders, the central source undergoes a phase transition from hadronic gas to quark-gluon plasma liquid phase; meanwhile, the target/projectile sources remain in the state of hadronic gas. The present work confirms that the quark-gluon plasma is of liquid type rather than being of a gas type. Li-Na Gao and Fu-Hu Liu Copyright © 2015 Li-Na Gao and Fu-Hu Liu. All rights reserved. Quantum Gravitational Spectroscopy Tue, 28 Jul 2015 13:54:19 +0000 Valery V. Nesvizhevsky, Ignatios Antoniadis, Stefan Baessler, and Guillaume Pignol Copyright © 2015 Valery V. Nesvizhevsky et al. All rights reserved. Radiative Corrections to from Three Generations of Majorana Neutrinos and Sneutrinos Tue, 28 Jul 2015 11:55:28 +0000 We study the radiative corrections to the mass of the lightest Higgs boson of the MSSM from three generations of Majorana neutrinos and sneutrinos. The spectrum of the MSSM is augmented by three right handed neutrinos and their supersymmetric partners. A seesaw mechanism of type I is used to generate the physical neutrino masses and oscillations that we require to be in agreement with present neutrino data. We present a full one-loop computation of these Higgs mass corrections and analyze in full detail their numerical size in terms of both the MSSM and the new (s)neutrino parameters. A critical discussion on the different possible renormalization schemes and their implications, in particular concerning decoupling, is included. S. Heinemeyer, J. Hernandez-Garcia, M. J. Herrero, X. Marcano, and A. M. Rodriguez-Sanchez Copyright © 2015 S. Heinemeyer et al. All rights reserved. Light of Planck-2015 on Noncanonical Inflation Tue, 28 Jul 2015 08:53:18 +0000 Slow-roll inflationary scenario is considered in noncanonical scalar field model supposing a power-law function for kinetic term and using two formalisms. In the first approach, the potential is picked out as a power-law function, that is, the most common approach in studying inflation. Hamilton-Jacobi approach is selected as the second formalism, so that the Hubble parameter is introduced as a function of scalar field instead of the potential. Employing the last observational data, the free parameters of the model are constrained, and the predicted form of the potential and attractor behavior of the model are studied in detail. Kh. Saaidi, A. Mohammadi, and T. Golanbari Copyright © 2015 Kh. Saaidi et al. All rights reserved. Geometrical Method for Thermal Instability of Nonlinearly Charged BTZ Black Holes Mon, 27 Jul 2015 08:23:56 +0000 We consider three-dimensional BTZ black holes with three models of nonlinear electrodynamics as source. Calculating heat capacity, we study the stability and phase transitions of these black holes. We show that Maxwell, logarithmic, and exponential theories yield only type one phase transition which is related to the root(s) of heat capacity, whereas, for correction form of nonlinear electrodynamics, heat capacity contains two roots and one divergence point. Next, we use geometrical approach for studying classical thermodynamical behavior of the system. We show that Weinhold and Ruppeiner metrics fail to provide fruitful results and the consequences of the Quevedo approach are not completely matched to the heat capacity results. Then, we employ a new metric for solving this problem. We show that this approach is successful and all divergencies of its Ricci scalar and phase transition points coincide. We also show that there is no phase transition for uncharged BTZ black holes. Seyed Hossein Hendi, Shahram Panahiyan, and Behzad Eslam Panah Copyright © 2015 Seyed Hossein Hendi et al. All rights reserved. Energy and Momentum of Bianchi Type Universes Mon, 27 Jul 2015 07:04:17 +0000 We obtain the energy and momentum of the Bianchi type universes using different prescriptions for the energy-momentum complexes in the framework of general relativity. The energy and momentum of the Bianchi universes are found to be zero for the parameter of the metric. The vanishing of these results supports the conjecture of Tryon that the universe must have a zero net value for all conserved quantities. This also supports the work of Nathan Rosen with the Robertson-Walker metric. Moreover, it raises an interesting question: “Why is the case so special?” S. K. Tripathy, B. Mishra, G. K. Pandey, A. K. Singh, T. Kumar, and S. S. Xulu Copyright © 2015 S. K. Tripathy et al. All rights reserved. Spin and Pseudospin Symmetry in Generalized Manning-Rosen Potential Wed, 22 Jul 2015 11:17:22 +0000 Spin and pseudospin symmetric Dirac spinors and energy relations are obtained by solving the Dirac equation with centrifugal term for a new suggested generalized Manning-Rosen potential which includes the potentials describing the nuclear and molecular structures. To solve the Dirac equation the Nikiforov-Uvarov method is used and also applied the Pekeris approximation to the centrifugal term. Energy eigenvalues for bound states are found numerically in the case of spin and pseudospin symmetry. Besides, the data attained in the present study are compared with the results obtained in the previous studies and it is seen that our data are consistent with the earlier ones. Hilmi Yanar and Ali Havare Copyright © 2015 Hilmi Yanar and Ali Havare. All rights reserved. Energy Conditions of Built-In Inflation Models in Gravitational Theories Thu, 16 Jul 2015 05:54:27 +0000 We examine the validity of energy conditions of built-in inflation models in gravitational theories. For this purpose, we formulate the inequalities of energy conditions by assuming the flat and nonflat Friedmann-Robertson-Walker (FRW) universe. We find the feasible constraints on the constants of integration and evaluate their possible ranges graphically for the consistency of these energy conditions for flat, closed, and open universes. We constrain the constants of integration for flat space-time from the inflation epoch while the closed and open universe constants are constrained from late universe. Gamal G. L. Nashed Copyright © 2015 Gamal G. L. Nashed. All rights reserved. Resonance and Associated Production at Future Higgs Boson Factory: ILC and CLIC Mon, 13 Jul 2015 11:54:51 +0000 We study the prospects of the model with an additional boson to be a Higgs boson factory at high-energy and high-luminosity linear electron positron colliders, such as the ILC and CLIC, through the Higgs-strahlung process , including both the resonant and the nonresonant effects. We evaluate the total cross section of and we calculate the total number of events for integrated luminosities of 500–2000 fb−1 and center of mass energies between 500 and 3000 GeV. We find that the total number of expected events can reach 106, which is a very optimistic scenario and it would be possible to perform precision measurements for both and Higgs boson in future high-energy colliders experiments. A. Gutiérrez-Rodríguez and M. A. Hernández-Ruíz Copyright © 2015 A. Gutiérrez-Rodríguez and M. A. Hernández-Ruíz. All rights reserved. Vacuum Condensate, Geometric Phase, Unruh Effect, and Temperature Measurement Tue, 07 Jul 2015 12:17:59 +0000 In our previous work the possibility to use the Aharonov-Anandan invariant as a tool in the analysis of disparate systems has been shown, including Hawking and Unruh effects, as well as graphene physics and thermal states. We show that the vacuum condensation, characterizing such systems, is also related with geometric phases and we analyze the properties of the geometric phase of systems represented by mixed state and undergoing a nonunitary evolution. In particular, we consider two-level atoms accelerated by an external potential and interacting with a thermal state. We propose the realization of Mach-Zehnder interferometers which can prove the existence of the Unruh effect and can allow very precise measurements of temperature. Antonio Capolupo and Giuseppe Vitiello Copyright © 2015 Antonio Capolupo and Giuseppe Vitiello. All rights reserved. Beam Purity for Light Dark Matter Search in Beam Dump Experiments Thu, 02 Jul 2015 11:42:50 +0000 This paper reviews the search for light dark matter in beam dump experiments with a special emphasis on the necessity of beam purity for precise background rejection at the sensitivities aimed at these experiments. As a case study we cite the P348 experiment which has test beam time in Fall 2015 at the SPS H4 beam line at CERN and aims to search for the gauge boson, , which as per one model of dark matter mediates a weak interaction between ordinary matter and dark matter via mixing of these “dark photons” with ordinary photon. The experiment aims to probe the still unexplored area of mixing strength and masses  MeV by using 10–300 GeV electron beam from the CERN SPS. This paper presents the simulation results for rejection of background due to beam impurity, by tracking the incoming particles with Micromegas detectors at a level <. D. Banerjee, P. Crivelli, and A. Rubbia Copyright © 2015 D. Banerjee et al. All rights reserved. On Productions of Net-Baryons in Central Au-Au Collisions at RHIC Energies Mon, 29 Jun 2015 12:34:13 +0000 The transverse momentum and rapidity distributions of net-baryons (baryons minus antibaryons) produced in central gold-gold (Au-Au) collisions at 62.4 and 200 GeV are analyzed in the framework of a multisource thermal model. Each source in the model is described by the Tsallis statistics to extract the effective temperature and entropy index from the transverse momentum distribution. The two parameters are used as input to describe the rapidity distribution and to extract the rapidity shift and contribution ratio. Then, the four types of parameters are used to structure some scatter plots of the considered particles in some three-dimensional (3D) spaces at the stage of kinetic freeze-out, which are expected to show different characteristics for different particles and processes. The related methodology can be used in the analyses of particle production and event holography, which are useful for us to better understand the interacting mechanisms. Ya-Hui Chen, Guo-Xing Zhang, and Fu-Hu Liu Copyright © 2015 Ya-Hui Chen et al. All rights reserved. Virial Theorem for Nonrelativistic Quantum Fields in Spatial Dimensions Mon, 22 Jun 2015 13:21:24 +0000 The virial theorem for nonrelativistic complex fields in spatial dimensions and with arbitrary many-body potential is derived, using path-integral methods and scaling arguments recently developed to analyze quantum anomalies in low-dimensional systems. The potential appearance of a Jacobian due to a change of variables in the path-integral expression for the partition function of the system is pointed out, although in order to make contact with the literature most of the analysis deals with the case. The virial theorem is recast into a form that displays the effect of microscopic scales on the thermodynamics of the system. From the point of view of this paper the case usually considered, , is not natural, and the generalization to the case is briefly presented. Chris L. Lin and Carlos R. Ordóñez Copyright © 2015 Chris L. Lin and Carlos R. Ordóñez. All rights reserved. Comparing Particle Productions at RHIC and LHC Energies Thu, 18 Jun 2015 08:04:24 +0000 Fu-Hu Liu, Sakina Fakhraddin, Edward Sarkisyan-Grinbaum, and Bhartendu K. Singh Copyright © 2015 Fu-Hu Liu et al. All rights reserved. Noether Gauge Symmetry of Dirac Field in (2 + 1)-Dimensional Gravity Mon, 15 Jun 2015 14:08:25 +0000 We consider a gravitational theory including a Dirac field that is nonminimally coupled to gravity in 2 + 1 dimensions. Noether gauge symmetry approach can be used to fix the form of coupling function and the potential of the Dirac field and to obtain a constant of motion for the dynamical equations. In the context of (2 + 1)-dimensional gravity, we investigate cosmological solutions of the field equations using these forms obtained by the existence of Noether gauge symmetry. In this picture, it is shown that, for the nonminimal coupling case, the cosmological solutions indicate both an early-time inflation and late-time acceleration for the universe. Ganim Gecim, Yusuf Kucukakca, and Yusuf Sucu Copyright © 2015 Ganim Gecim et al. All rights reserved. Production of Kaon and in Nucleus-Nucleus Collisions at Ultrarelativistic Energy from a Blast-Wave Model Sun, 14 Jun 2015 08:53:21 +0000 The particle production of Kaon and is studied in nucleus-nucleus collisions at relativistic energy based on a chemical equilibrium blast-wave model. The transverse momentum spectra of Kaon and at the kinetic freeze-out stage from our model are in good agreement with the experimental results. The kinetic freeze-out parameters of temperature and radial flow parameter are presented for the FOPI, RHIC, and LHC energies. And the resonance decay effect is also discussed. The systematic study for beam energy dependence of the strangeness particle production will help us to better understand the properties of the matter created in heavy-ion collisions at the kinetic freeze-out stage. S. Zhang, Y. G. Ma, J. H. Chen, and C. Zhong Copyright © 2015 S. Zhang et al. All rights reserved. Pion Transverse Momentum Spectrum, Elliptic Flow, and Interferometry in the Granular Source Model for RHIC and LHC Heavy Ion Collisions Wed, 10 Jun 2015 13:29:39 +0000 We systematically investigate the pion transverse momentum spectrum, elliptic flow, and Hanbury-Brown-Twiss (HBT) interferometry in the granular source model for the heavy ion collisions of Au-Au at  GeV and Pb-Pb at  TeV with different centralities. The granular source model can well reproduce the experimental results of the heavy ion collisions at the Relativistic Heavy Ion Collider (RHIC) and the Large Hadron Collider (LHC). We examine the parameters involved in the granular source model. The experimental data of the momentum spectrum, elliptic flow, and HBT radii for the two collision energies and different centralities impose very strict constraints on the model parameters. They exhibit certain regularities for collision centrality and energy. The space-time structure and expansion velocities of the granular sources for the heavy ion collisions at the RHIC and LHC energies with different centralities are investigated. Jing Yang, Yan-Yu Ren, and Wei-Ning Zhang Copyright © 2015 Jing Yang et al. All rights reserved. Recognizing Critical Behavior amidst Minijets at the Large Hadron Collider Wed, 10 Jun 2015 09:39:07 +0000 The transition from quarks to hadrons in a heavy-ion collision at high energy is usually studied in two different contexts that involve very different transverse scales: local and nonlocal. Models that are concerned with the spectra and azimuthal anisotropy belong to the former, that is, hadronization at a local point in space, such as the recombination model. The nonlocal problem has to do with quark-hadron phase transition where collective behavior through near-neighbor interaction can generate patterns of varying sizes in the space. The two types of problems are put together in this paper both as brief reviews separately and to discuss how they are related to each other. In particular, we ask how minijets produced at LHC can affect the investigation of multiplicity fluctuations as signals of critical behavior. It is suggested that the existing data from LHC have sufficient multiplicities in small intervals to make the observation of distinctive features of clustering of soft particles, as well as voids, feasible that characterize the critical behavior at phase transition from quarks to hadrons, without any ambiguity posed by the clustering of jet particles. Rudolph C. Hwa Copyright © 2015 Rudolph C. Hwa. All rights reserved. The Unified Hydrodynamics and the Pseudorapidity Distributions in Heavy Ion Collisions at BNL-RHIC and CERN-LHC Energies Wed, 10 Jun 2015 07:03:54 +0000 The charged particles produced in nucleus-nucleus collisions are divided into two parts. One is from the hot and dense matter created in collisions. The other is from leading particles. The hot and dense matter is assumed to expand according to unified hydrodynamics and freezes out into charged particles from a space-like hypersurface with a fixed proper time of . The leading particles are conventionally taken as the particles which inherit the quantum numbers of colliding nucleons and carry off most of incident energy. The rapidity distributions of the charged particles from these two parts are formulated analytically, and a comparison is made between the theoretical results and the experimental measurements performed in Au-Au and Pb-Pb collisions at the respective BNL-RHIC and CERN-LHC energies. The theoretical results are well consistent with experimental data. Z. J. Jiang, J. Wang, K. Ma, and H. L. Zhang Copyright © 2015 Z. J. Jiang et al. All rights reserved. Transverse Momentum Spectra of and at Midrapidity in + Au, Cu + Cu, and Collisions at  GeV Tue, 09 Jun 2015 17:06:15 +0000 We analyze transverse momentum spectra of and at midrapidity in + Au, Cu + Cu, and collisions at  GeV in the formworks of Tsallis statistics and Boltzmann statistics, respectively. Both of them can describe the transverse momentum spectra and extract the thermodynamics parameters of matter evolution in the collisions. The parameters are helpful for us to understand the thermodynamics factors of the particle production. Bao-Chun Li, Guo-Xing Zhang, and Yuan-Yuan Guo Copyright © 2015 Bao-Chun Li et al. All rights reserved. Properties of Full Jet in High-Energy Heavy-Ion Collisions from Parton Scatterings Tue, 09 Jun 2015 14:26:03 +0000 The properties of fully reconstructed jet are investigated in p + p and Pb + Pb collisions at = 2.76 TeV within a multiphase transport (AMPT) model with both partonic scatterings and hadronic rescatterings. A large transverse momentum () asymmetry of dijet or photon-jet arises from the strong interactions between jet and partonic matter. The -dependent jet fragmentation function in Pb + Pb collisions is decomposed into two contributions from different jet hadronization mechanisms, that is, fragmentation versus coalescence. The medium modification of differential jet shape displays that the jet energy is redistributed towards a larger radius owing to jet-medium interactions in heavy-ion collisions. Jet triangular azimuthal anisotropy coefficient, , which shows a smaller magnitude than the elliptic coefficient , decreases more quickly with increasing jet , which can be attributed to a path-length effect of jet energy loss. All of these properties of full jet are consistent with the jet energy loss mechanism in a stronglyinteracting partonic matter in high-energy heavy-ion collisions. Guo-Liang Ma and Mao-Wu Nie Copyright © 2015 Guo-Liang Ma and Mao-Wu Nie. All rights reserved. Azimuthally Integrated HBT Parameters for Charged Pions in Nucleus-Nucleus Interactions versus Collision Energy Tue, 09 Jun 2015 13:34:01 +0000 The energy dependence of spatiotemporal characteristics of particle emission region is studied for charged pions produced in nuclear collisions. No dramatic change is observed for the HBT parameters with increasing of the center-of-mass (c.m.) energy per nucleon-nucleon pair, , for of a few GeV to a few TeV. The emission duration is obtained to be almost independent of the c.m. energy within the measurement uncertainties. The analytic function is suggested for a smooth approximation of the energy dependence of the main HBT parameters. The fits demonstrate reasonable agreement with the experimental data. Predictions are made for future LHC and FCC experiments. V. A. Okorokov Copyright © 2015 V. A. Okorokov. All rights reserved. Freeze-Out Parameters in Heavy-Ion Collisions at AGS, SPS, RHIC, and LHC Energies Tue, 09 Jun 2015 13:33:17 +0000 We review the chemical and kinetic freeze-out conditions in high energy heavy-ion collisions for AGS, SPS, RHIC, and LHC energies. Chemical freeze-out parameters are obtained using produced particle yields in central collisions while the corresponding kinetic freeze-out parameters are obtained using transverse momentum distributions of produced particles. For chemical freeze-out, different freeze-out scenarios are discussed such as single and double/flavor dependent freeze-out surfaces. Kinetic freeze-out parameters are obtained by doing hydrodynamic inspired blast wave fit to the transverse momentum distributions. The beam energy and centrality dependence of transverse energy per charged particle multiplicity are studied to address the constant energy per particle freeze-out criteria in heavy-ion collisions. Sandeep Chatterjee, Sabita Das, Lokesh Kumar, D. Mishra, Bedangadas Mohanty, Raghunath Sahoo, and Natasha Sharma Copyright © 2015 Sandeep Chatterjee et al. All rights reserved. A Review on ϕ Meson Production in Heavy-Ion Collision Tue, 09 Jun 2015 13:30:19 +0000 The main aim of the relativistic heavy-ion experiment is to create extremely hot and dense matter and study the QCD phase structure. With this motivation, experimental program started in the early 1990s at the Brookhaven Alternating Gradient Synchrotron (AGS) and the CERN Super Proton Synchrotron (SPS) followed by Relativistic Heavy Ion Collider (RHIC) at Brookhaven and recently at Large Hadron Collider (LHC) at CERN. These experiments allowed us to study the QCD matter from center-of-mass energies () 4.75 GeV to 2.76 TeV. The ϕ meson, due to its unique properties, is considered as a good probe to study the QCD matter created in relativistic collisions. In this paper we present a review on the measurements of ϕ meson production in heavy-ion experiments. Mainly, we discuss the energy dependence of ϕ meson invariant yield and the production mechanism, strangeness enhancement, parton energy loss, and partonic collectivity in nucleus-nucleus collisions. Effect of later stage hadronic rescattering on elliptic flow () of proton is also discussed relative to corresponding effect on ϕ meson . Md. Nasim, Vipul Bairathi, Mukesh Kumar Sharma, Bedangadas Mohanty, and Anju Bhasin Copyright © 2015 Md. Nasim et al. All rights reserved. The Profile of Inelastic Collisions from Elastic Scattering Data Tue, 09 Jun 2015 12:24:57 +0000 Using the unitarity relation in combination with experimental data about the elastic scattering in the diffraction cone, it is shown how the shape and the darkness of the inelastic interaction region of colliding protons change with increase of their energies. In particular, the collisions become fully absorptive at small impact parameters at LHC energies that results in some special features of inelastic processes. Possible evolution of this shape with the dark core at the LHC to the fully transparent one at higher energies is discussed that implies that the terminology of the black disk would be replaced by the black toroid. The approach to asymptotics is disputed. The ratio of the real to imaginary parts of the nonforward elastic scattering amplitude is briefly discussed. All the conclusions are only obtained in the framework of the indubitable unitarity condition using experimental data about the elastic scattering of protons in the diffraction cone without any reference to quantum chromodynamics (QCD) or phenomenological approaches. I. M. Dremin Copyright © 2015 I. M. Dremin. All rights reserved. Energy Dependence of Slope Parameter in Elastic Nucleon-Nucleon Scattering Tue, 09 Jun 2015 11:20:29 +0000 The diffraction slope parameter is investigated for elastic proton-proton and proton-antiproton scattering based on all the available experimental data at low and intermediate momentum transfer values. Energy dependence of the elastic diffraction slope is approximated by various analytic functions. The expanded “standard” logarithmic approximations with minimum number of free parameters allow description of the experimental slopes in all the available energy range reasonably. The estimations of asymptotic shrinkage parameter are obtained for various domains based on all the available experimental data. Various approximations differ from each other both in the low energy and very high energy domains. Predictions for diffraction slope parameter are obtained for elastic proton-proton scattering from NICA up to future collider (FCC/VLHC) energies, for proton-antiproton elastic reaction in FAIR energy domain for various approximation functions. V. A. Okorokov Copyright © 2015 V. A. Okorokov. All rights reserved. Exact Solution of the Curved Dirac Equation in Polar Coordinates: Master Function Approach Sun, 31 May 2015 16:42:45 +0000 We show that the () curved Dirac equation in polar coordinates can be transformed into Schrodinger-like differential equation for upper spinor component. We compare this equation with the Schrodinger equation derived from shape invariance property of second order differential equations of mathematical physics. This formalism enables us to determine the electrostatic potential and relativistic energy in terms of master function and corresponding weight function. We also obtain the spinor wave function in terms of orthogonal polynomials. H. Panahi and L. Jahangiri Copyright © 2015 H. Panahi and L. Jahangiri. All rights reserved. Bianchi Type-V Bulk Viscous Cosmic String in Gravity with Time Varying Deceleration Parameter Sun, 31 May 2015 09:16:17 +0000 We study the Bianchi type-V string cosmological model with bulk viscosity in theory of gravity by considering a special form and linearly varying deceleration parameter. This is an extension of the earlier work of Naidu et al., 2013, where they have constructed the model by considering a constant deceleration parameter. Here we find that the cosmic strings do not survive in both models. In addition we study some physical and kinematical properties of both models. We observe that in one of our models these properties are identical to the model obtained by Naidu et al., 2013, and in the other model the behavior of these parameters is different. Bïnaya K. Bishi and K. L. Mahanta Copyright © 2015 Bïnaya K. Bishi and K. L. Mahanta. All rights reserved. Effects of the Variation of SUSY Breaking Scale on Yukawa and Gauge Couplings Unification Sun, 31 May 2015 08:07:33 +0000 The present analysis addresses an interesting primary question on how do the gauge and Yukawa couplings unification scales vary with varying SUSY breaking scales , assuming a single scale for all supersymmetric particles. It is observed that the gauge coupling unification scale increases with whereas third-generation Yukawa couplings unification scale decreases with . The rising of the unification scale and also the mass of the color triplet multiplets is necessary to increase the proton decay lifetime; the analysis is carried out with two-loop RGEs for the gauge and Yukawa couplings within the minimal supersymmetric SU(5) model, while ignoring for simplicity the threshold effects of the heavy particles, which could be as large as a few percentages. Konsam Sashikanta Singh and N. Nimai Singh Copyright © 2015 Konsam Sashikanta Singh and N. Nimai Singh. All rights reserved.