Dynamics of QCD matter - current status

Bibliographic Details
Main Author: Jaiswal, Amaresh
Publication Date: 2021
Other Authors: Haque, Najmul, Abhishek, Aman, Abir, Raktim, Bandyopadhyay, Aritra, Banu, Khatiza, Bhadury, Samapan, Bhattacharyya, Sumana, Bhattacharyya, Trambak, Biswas, Deeptak, Chandola, H. C., Chandra, Vinod, Chatterjee, Bhaswar, Chattopadhyay, Chandrodoy, Chaudhuri, Nilanjan, Das, Aritra, Das, Arpan, Das, Santosh K., Dash, Ashutosh, Deka, Kishan, Dey, Jayanta, Farias, Ricardo L. S., Gangopadhyaya, Utsab, Ghosh, Ritesh, Ghosh, Sabyasachi, Ghosh, Snigdha, Heinz, Ulrich, Jaiswal, Sunil, Kadam, Guruprasad, Kalikotay, Pallavi, Karmakar, Bithika, Krein, Gastao [UNESP], Kumar, Avdhesh, Kumar, Deepak, Kumar, Lokesh, Kurian, Manu, Maity, Soumitra, Mishra, Hiranmaya, Mohanty, Payal, Mohapatra, Ranjita K., Mukherjee, Arghya, Mustafa, Munshi G., Pal, Subrata, Pandey, H. C., Rahaman, Mahfuzur, Rapp, Ralf, Rawat, Deependra Singh, Roy, Sutanu, Roy, Victor, Saha, Kinkar, Sahoo, Nihar R., Samanta, Subhasis, Sarkar, Sourav, Satapathy, Sarthak, Serna, Fernando E. [UNESP], Siddiqah, Mariyah, Singha, Pracheta, Sreekanth, V, Upadhaya, Sudipa, Vasim, Nahid, Yadav, Dinesh
Format: Other
Language: eng
Source: Repositório Institucional da UNESP
Download full: http://dx.doi.org/10.1142/S0218301321300010
http://hdl.handle.net/11449/210145
Summary: In this article, there are 18 sections discussing various current topics in the field of relativistic heavy-ion collisions and related phenomena, which will serve as a snapshot of the current state of the art. Section 1 reviews experimental results of some recent light-flavored particle production data from ALICE collaboration. Other sections are mostly theoretical in nature. Very strong but transient magnetic field created in relativistic heavy-ion collisions could have important observational consequences. This has generated a lot of theoretical activity in the last decade. Sections 2, 7, 9, 10 and 11 deal with the effects of the magnetic field on the properties of the QCD matter. More specifically, Sec. 2 discusses mass of pi 0 in the linear sigma model coupled to quarks at zero temperature. In Sec. 7, one-loop calculation of the anisotropic pressure are discussed in the presence of strong magnetic field. In Sec. 9, chiral transition and chiral susceptibility in the NJL model is discussed for a chirally imbalanced plasma in the presence of magnetic field using a Wigner function approach. Sections 10 discusses electrical conductivity and Hall conductivity of hot and dense hadron gas within Boltzmann approach and Sec. 11 deals with electrical resistivity of quark matter in presence of magnetic field. There are several unanswered questions about the QCD phase diagram. Sections 3, 11 and 18 discuss various aspects of the QCD phase diagram and phase transitions. Recent years have witnessed interesting developments in foundational aspects of hydrodynamics and their application to heavy-ion collisions. Sections 12 and 15-17 of this article probe some aspects of this exciting field. In Sec. 12, analytical solutions of viscous Landau hydrodynamics in 1+1D are discussed. Section 15 deals with derivation of hydrodynamics from effective covariant kinetic theory. Sections 16 and 17 discuss hydrodynamics with spin and analytical hydrodynamic attractors, respectively. Transport coefficients together with their temperature- and density-dependence are essential inputs in hydrodynamical calculations. Sections 5, 8 and 14 deal with calculation/estimation of various transport coefficients (shear and bulk viscosity, thermal conductivity, relaxation times, etc.) of quark matter and hadronic matter. Sections 4, 6 and 13 deal with interesting new developments in the field. Section 4 discusses color dipole gluon distribution function at small transverse momentum in the form of a series of Bells polynomials. Section 6 discusses the properties of Higgs boson in the quark-gluon plasma using Higgs-quark interaction and calculate the Higgs decays into quark and anti-quark, which shows a dominant on-shell contribution in the bottom-quark channel. Section 13 discusses modification of coalescence model to incorporate viscous corrections and application of this model to study hadron production from a dissipative quark-gluon plasma.
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spelling Dynamics of QCD matter - current statusQuark gluon plasmarelativistic heavy ion collisionsquantum chromodynamicsIn this article, there are 18 sections discussing various current topics in the field of relativistic heavy-ion collisions and related phenomena, which will serve as a snapshot of the current state of the art. Section 1 reviews experimental results of some recent light-flavored particle production data from ALICE collaboration. Other sections are mostly theoretical in nature. Very strong but transient magnetic field created in relativistic heavy-ion collisions could have important observational consequences. This has generated a lot of theoretical activity in the last decade. Sections 2, 7, 9, 10 and 11 deal with the effects of the magnetic field on the properties of the QCD matter. More specifically, Sec. 2 discusses mass of pi 0 in the linear sigma model coupled to quarks at zero temperature. In Sec. 7, one-loop calculation of the anisotropic pressure are discussed in the presence of strong magnetic field. In Sec. 9, chiral transition and chiral susceptibility in the NJL model is discussed for a chirally imbalanced plasma in the presence of magnetic field using a Wigner function approach. Sections 10 discusses electrical conductivity and Hall conductivity of hot and dense hadron gas within Boltzmann approach and Sec. 11 deals with electrical resistivity of quark matter in presence of magnetic field. There are several unanswered questions about the QCD phase diagram. Sections 3, 11 and 18 discuss various aspects of the QCD phase diagram and phase transitions. Recent years have witnessed interesting developments in foundational aspects of hydrodynamics and their application to heavy-ion collisions. Sections 12 and 15-17 of this article probe some aspects of this exciting field. In Sec. 12, analytical solutions of viscous Landau hydrodynamics in 1+1D are discussed. Section 15 deals with derivation of hydrodynamics from effective covariant kinetic theory. Sections 16 and 17 discuss hydrodynamics with spin and analytical hydrodynamic attractors, respectively. Transport coefficients together with their temperature- and density-dependence are essential inputs in hydrodynamical calculations. Sections 5, 8 and 14 deal with calculation/estimation of various transport coefficients (shear and bulk viscosity, thermal conductivity, relaxation times, etc.) of quark matter and hadronic matter. Sections 4, 6 and 13 deal with interesting new developments in the field. Section 4 discusses color dipole gluon distribution function at small transverse momentum in the form of a series of Bells polynomials. Section 6 discusses the properties of Higgs boson in the quark-gluon plasma using Higgs-quark interaction and calculate the Higgs decays into quark and anti-quark, which shows a dominant on-shell contribution in the bottom-quark channel. Section 13 discusses modification of coalescence model to incorporate viscous corrections and application of this model to study hadron production from a dissipative quark-gluon plasma.Department of Atomic Energy, Govt. of IndiaSERBDST-INSPIRE Faculty research grant, IndiaUGC, New DelhiHuman Resource Development (MHRD), Government of IndiaU.S. National Science FoundationConselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Fundacao de Amparo a Pesquisa do Estado do Rio Grande do Sul (FAPERGS)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)DST-INSPIRE faculty awardSERB Early Career Research AwardCouncil of Scientific and Industrial Research (CSIR), IndiaDST, Govt. of IndiaPolish National Science CenterNatl Inst Sci Educ & Res, HBNI, Jatni 752050, Odisha, IndiaPhys Res Lab, Theory Div, Ahmadabad 380009, Gujarat, IndiaAligarh Muslim Univ, Dept Phys, Aligarh 202002, Uttar Pradesh, IndiaUniv Fed Santa Maria, Dept Fis, BR-97105900 Santa Maria, RS, BrazilCtr Astroparticle Phys & Space Sci, Bose Inst, EN 80,Sect 5, Kolkata 700091, IndiaUniv Cape Town, ZA-7701 Rondebosch, South AfricaKumaun Univ, Dept Phys UGC Adv Study, Naini Tal, IndiaIndian Inst Technol Gandhinagar, Gandhinagar 382355, Gujarat, IndiaIndian Inst Technol Roorkee, Dept Phys, Roorkee 247667, Uttar Pradesh, IndiaOhio State Univ, Dept Phys, Columbus, OH 43210 USAVariable Energy Cyclotron Ctr, 1-AF Bidhan Nagar, Kolkata 700064, IndiaHomi Bhabha Natl Inst, Training Sch Complex, Mumbai 400085, Maharashtra, IndiaSaha Inst Nucl Phys, 1-AF Bidhan Nagar, Kolkata 700064, IndiaIndian Inst Technol Goa, Sch Phys Sci, Ponda 403401, Goa, IndiaIndian Inst Technol Bhilai, GEC Campus, Raipur 492015, Madhya Pradesh, IndiaTata Inst Fundamental Res, Dept Nucl & Atom Phys, Mumbai 400005, Maharashtra, IndiaShivaji Univ, Dept Phys, Kolhapur 416004, Maharashtra, IndiaKazi Nazrul Univ, Dept Phys, Asansol 713340, W Bengal, IndiaUniv Estadual Paulista, Inst Fis Teor, Rua Dr Bento Teobaldo Ferraz 271 Bloco II, BR-01140070 Sao Paulo, SP, BrazilPolish Acad Sci, Inst Nucl Phys, PL-31342 Krakow, PolandPanjab Univ, Dept Phys, Chandigarh 160014, IndiaIndian Inst Technol, Dept Phys, Mumbai 400076, Maharashtra, IndiaBirla Inst Appl Sci, Bhimtal, IndiaTexas A&M Univ, Dept Phys & Astron, College Stn, TX 77843 USATexas A&M Univ, Cyclotron Inst, College Stn, TX 77843 USAUniv Calcutta, Dept Phys, 92 APC Rd, Kolkata, IndiaShandong Univ, Qingdao, Peoples R ChinaAmrita Vishwa Vidyapeethom, Dept Sci, Amrita Sch Engn, Coimbatore, Tamil Nadu, IndiaJoint Inst Nucl Res, Bogoliubov Lab Theoret Phys, Dubna 141980, Moscow Region, RussiaUniv Estadual Paulista, Inst Fis Teor, Rua Dr Bento Teobaldo Ferraz 271 Bloco II, BR-01140070 Sao Paulo, SP, BrazilSERB: ECR/2016/000109U.S. National Science Foundation: PHY-1913286CNPq: 304758/2017-5CNPq: 305894/2009-9CNPq: 464898/2014-5Fundacao de Amparo a Pesquisa do Estado do Rio Grande do Sul (FAPERGS): 19/2551-0000690-0FAPESP: 2013/01907-0CAPES: 001DST-INSPIRE faculty award: DST/INSPIRE/04/2017/000038SERB Early Career Research Award: ECR/2017/001354DST, Govt. of India: IFA-13/PH-55Polish National Science Center: 2016/23/B/ST2/00717World Scientific Publ Co Pte LtdNatl Inst Sci Educ & ResPhys Res LabAligarh Muslim UnivUniversidade Federal de Sergipe (UFS)Ctr Astroparticle Phys & Space SciUniv Cape TownKumaun UnivIndian Inst Technol GandhinagarIndian Inst Technol RoorkeeOhio State UnivVariable Energy Cyclotron CtrHomi Bhabha Natl InstSaha Inst Nucl PhysIndian Inst Technol GoaIndian Inst Technol BhilaiTata Inst Fundamental ResShivaji UnivKazi Nazrul UnivUniversidade Estadual Paulista (Unesp)Polish Acad SciPanjab UnivIndian Inst TechnolBirla Inst Appl SciTexas A&M UnivUniv CalcuttaShandong UnivAmrita Vishwa VidyapeethomJoint Inst Nucl ResJaiswal, AmareshHaque, NajmulAbhishek, AmanAbir, RaktimBandyopadhyay, AritraBanu, KhatizaBhadury, SamapanBhattacharyya, SumanaBhattacharyya, TrambakBiswas, DeeptakChandola, H. C.Chandra, VinodChatterjee, BhaswarChattopadhyay, ChandrodoyChaudhuri, NilanjanDas, AritraDas, ArpanDas, Santosh K.Dash, AshutoshDeka, KishanDey, JayantaFarias, Ricardo L. S.Gangopadhyaya, UtsabGhosh, RiteshGhosh, SabyasachiGhosh, SnigdhaHeinz, UlrichJaiswal, SunilKadam, GuruprasadKalikotay, PallaviKarmakar, BithikaKrein, Gastao [UNESP]Kumar, AvdheshKumar, DeepakKumar, LokeshKurian, ManuMaity, SoumitraMishra, HiranmayaMohanty, PayalMohapatra, Ranjita K.Mukherjee, ArghyaMustafa, Munshi G.Pal, SubrataPandey, H. C.Rahaman, MahfuzurRapp, RalfRawat, Deependra SinghRoy, SutanuRoy, VictorSaha, KinkarSahoo, Nihar R.Samanta, SubhasisSarkar, SouravSatapathy, SarthakSerna, Fernando E. [UNESP]Siddiqah, MariyahSingha, PrachetaSreekanth, VUpadhaya, SudipaVasim, NahidYadav, Dinesh2021-06-25T12:41:03Z2021-06-25T12:41:03Z2021-02-01info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/other106http://dx.doi.org/10.1142/S0218301321300010International Journal Of Modern Physics E. Singapore: World Scientific Publ Co Pte Ltd, v. 30, n. 2, 106 p., 2021.0218-3013http://hdl.handle.net/11449/21014510.1142/S0218301321300010WOS:000631496100001Web of Sciencereponame:Repositório Institucional da UNESPinstname:Universidade Estadual Paulista (UNESP)instacron:UNESPengInternational Journal Of Modern Physics Einfo:eu-repo/semantics/openAccess2024-11-25T20:18:16Zoai:repositorio.unesp.br:11449/210145Repositório InstitucionalPUBhttp://repositorio.unesp.br/oai/requestrepositoriounesp@unesp.bropendoar:29462024-11-25T20:18:16Repositório Institucional da UNESP - Universidade Estadual Paulista (UNESP)false
dc.title.none.fl_str_mv Dynamics of QCD matter - current status
title Dynamics of QCD matter - current status
spellingShingle Dynamics of QCD matter - current status
Jaiswal, Amaresh
Quark gluon plasma
relativistic heavy ion collisions
quantum chromodynamics
title_short Dynamics of QCD matter - current status
title_full Dynamics of QCD matter - current status
title_fullStr Dynamics of QCD matter - current status
title_full_unstemmed Dynamics of QCD matter - current status
title_sort Dynamics of QCD matter - current status
author Jaiswal, Amaresh
author_facet Jaiswal, Amaresh
Haque, Najmul
Abhishek, Aman
Abir, Raktim
Bandyopadhyay, Aritra
Banu, Khatiza
Bhadury, Samapan
Bhattacharyya, Sumana
Bhattacharyya, Trambak
Biswas, Deeptak
Chandola, H. C.
Chandra, Vinod
Chatterjee, Bhaswar
Chattopadhyay, Chandrodoy
Chaudhuri, Nilanjan
Das, Aritra
Das, Arpan
Das, Santosh K.
Dash, Ashutosh
Deka, Kishan
Dey, Jayanta
Farias, Ricardo L. S.
Gangopadhyaya, Utsab
Ghosh, Ritesh
Ghosh, Sabyasachi
Ghosh, Snigdha
Heinz, Ulrich
Jaiswal, Sunil
Kadam, Guruprasad
Kalikotay, Pallavi
Karmakar, Bithika
Krein, Gastao [UNESP]
Kumar, Avdhesh
Kumar, Deepak
Kumar, Lokesh
Kurian, Manu
Maity, Soumitra
Mishra, Hiranmaya
Mohanty, Payal
Mohapatra, Ranjita K.
Mukherjee, Arghya
Mustafa, Munshi G.
Pal, Subrata
Pandey, H. C.
Rahaman, Mahfuzur
Rapp, Ralf
Rawat, Deependra Singh
Roy, Sutanu
Roy, Victor
Saha, Kinkar
Sahoo, Nihar R.
Samanta, Subhasis
Sarkar, Sourav
Satapathy, Sarthak
Serna, Fernando E. [UNESP]
Siddiqah, Mariyah
Singha, Pracheta
Sreekanth, V
Upadhaya, Sudipa
Vasim, Nahid
Yadav, Dinesh
author_role author
author2 Haque, Najmul
Abhishek, Aman
Abir, Raktim
Bandyopadhyay, Aritra
Banu, Khatiza
Bhadury, Samapan
Bhattacharyya, Sumana
Bhattacharyya, Trambak
Biswas, Deeptak
Chandola, H. C.
Chandra, Vinod
Chatterjee, Bhaswar
Chattopadhyay, Chandrodoy
Chaudhuri, Nilanjan
Das, Aritra
Das, Arpan
Das, Santosh K.
Dash, Ashutosh
Deka, Kishan
Dey, Jayanta
Farias, Ricardo L. S.
Gangopadhyaya, Utsab
Ghosh, Ritesh
Ghosh, Sabyasachi
Ghosh, Snigdha
Heinz, Ulrich
Jaiswal, Sunil
Kadam, Guruprasad
Kalikotay, Pallavi
Karmakar, Bithika
Krein, Gastao [UNESP]
Kumar, Avdhesh
Kumar, Deepak
Kumar, Lokesh
Kurian, Manu
Maity, Soumitra
Mishra, Hiranmaya
Mohanty, Payal
Mohapatra, Ranjita K.
Mukherjee, Arghya
Mustafa, Munshi G.
Pal, Subrata
Pandey, H. C.
Rahaman, Mahfuzur
Rapp, Ralf
Rawat, Deependra Singh
Roy, Sutanu
Roy, Victor
Saha, Kinkar
Sahoo, Nihar R.
Samanta, Subhasis
Sarkar, Sourav
Satapathy, Sarthak
Serna, Fernando E. [UNESP]
Siddiqah, Mariyah
Singha, Pracheta
Sreekanth, V
Upadhaya, Sudipa
Vasim, Nahid
Yadav, Dinesh
author2_role author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
author
dc.contributor.none.fl_str_mv Natl Inst Sci Educ & Res
Phys Res Lab
Aligarh Muslim Univ
Universidade Federal de Sergipe (UFS)
Ctr Astroparticle Phys & Space Sci
Univ Cape Town
Kumaun Univ
Indian Inst Technol Gandhinagar
Indian Inst Technol Roorkee
Ohio State Univ
Variable Energy Cyclotron Ctr
Homi Bhabha Natl Inst
Saha Inst Nucl Phys
Indian Inst Technol Goa
Indian Inst Technol Bhilai
Tata Inst Fundamental Res
Shivaji Univ
Kazi Nazrul Univ
Universidade Estadual Paulista (Unesp)
Polish Acad Sci
Panjab Univ
Indian Inst Technol
Birla Inst Appl Sci
Texas A&M Univ
Univ Calcutta
Shandong Univ
Amrita Vishwa Vidyapeethom
Joint Inst Nucl Res
dc.contributor.author.fl_str_mv Jaiswal, Amaresh
Haque, Najmul
Abhishek, Aman
Abir, Raktim
Bandyopadhyay, Aritra
Banu, Khatiza
Bhadury, Samapan
Bhattacharyya, Sumana
Bhattacharyya, Trambak
Biswas, Deeptak
Chandola, H. C.
Chandra, Vinod
Chatterjee, Bhaswar
Chattopadhyay, Chandrodoy
Chaudhuri, Nilanjan
Das, Aritra
Das, Arpan
Das, Santosh K.
Dash, Ashutosh
Deka, Kishan
Dey, Jayanta
Farias, Ricardo L. S.
Gangopadhyaya, Utsab
Ghosh, Ritesh
Ghosh, Sabyasachi
Ghosh, Snigdha
Heinz, Ulrich
Jaiswal, Sunil
Kadam, Guruprasad
Kalikotay, Pallavi
Karmakar, Bithika
Krein, Gastao [UNESP]
Kumar, Avdhesh
Kumar, Deepak
Kumar, Lokesh
Kurian, Manu
Maity, Soumitra
Mishra, Hiranmaya
Mohanty, Payal
Mohapatra, Ranjita K.
Mukherjee, Arghya
Mustafa, Munshi G.
Pal, Subrata
Pandey, H. C.
Rahaman, Mahfuzur
Rapp, Ralf
Rawat, Deependra Singh
Roy, Sutanu
Roy, Victor
Saha, Kinkar
Sahoo, Nihar R.
Samanta, Subhasis
Sarkar, Sourav
Satapathy, Sarthak
Serna, Fernando E. [UNESP]
Siddiqah, Mariyah
Singha, Pracheta
Sreekanth, V
Upadhaya, Sudipa
Vasim, Nahid
Yadav, Dinesh
dc.subject.por.fl_str_mv Quark gluon plasma
relativistic heavy ion collisions
quantum chromodynamics
topic Quark gluon plasma
relativistic heavy ion collisions
quantum chromodynamics
description In this article, there are 18 sections discussing various current topics in the field of relativistic heavy-ion collisions and related phenomena, which will serve as a snapshot of the current state of the art. Section 1 reviews experimental results of some recent light-flavored particle production data from ALICE collaboration. Other sections are mostly theoretical in nature. Very strong but transient magnetic field created in relativistic heavy-ion collisions could have important observational consequences. This has generated a lot of theoretical activity in the last decade. Sections 2, 7, 9, 10 and 11 deal with the effects of the magnetic field on the properties of the QCD matter. More specifically, Sec. 2 discusses mass of pi 0 in the linear sigma model coupled to quarks at zero temperature. In Sec. 7, one-loop calculation of the anisotropic pressure are discussed in the presence of strong magnetic field. In Sec. 9, chiral transition and chiral susceptibility in the NJL model is discussed for a chirally imbalanced plasma in the presence of magnetic field using a Wigner function approach. Sections 10 discusses electrical conductivity and Hall conductivity of hot and dense hadron gas within Boltzmann approach and Sec. 11 deals with electrical resistivity of quark matter in presence of magnetic field. There are several unanswered questions about the QCD phase diagram. Sections 3, 11 and 18 discuss various aspects of the QCD phase diagram and phase transitions. Recent years have witnessed interesting developments in foundational aspects of hydrodynamics and their application to heavy-ion collisions. Sections 12 and 15-17 of this article probe some aspects of this exciting field. In Sec. 12, analytical solutions of viscous Landau hydrodynamics in 1+1D are discussed. Section 15 deals with derivation of hydrodynamics from effective covariant kinetic theory. Sections 16 and 17 discuss hydrodynamics with spin and analytical hydrodynamic attractors, respectively. Transport coefficients together with their temperature- and density-dependence are essential inputs in hydrodynamical calculations. Sections 5, 8 and 14 deal with calculation/estimation of various transport coefficients (shear and bulk viscosity, thermal conductivity, relaxation times, etc.) of quark matter and hadronic matter. Sections 4, 6 and 13 deal with interesting new developments in the field. Section 4 discusses color dipole gluon distribution function at small transverse momentum in the form of a series of Bells polynomials. Section 6 discusses the properties of Higgs boson in the quark-gluon plasma using Higgs-quark interaction and calculate the Higgs decays into quark and anti-quark, which shows a dominant on-shell contribution in the bottom-quark channel. Section 13 discusses modification of coalescence model to incorporate viscous corrections and application of this model to study hadron production from a dissipative quark-gluon plasma.
publishDate 2021
dc.date.none.fl_str_mv 2021-06-25T12:41:03Z
2021-06-25T12:41:03Z
2021-02-01
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/other
format other
status_str publishedVersion
dc.identifier.uri.fl_str_mv http://dx.doi.org/10.1142/S0218301321300010
International Journal Of Modern Physics E. Singapore: World Scientific Publ Co Pte Ltd, v. 30, n. 2, 106 p., 2021.
0218-3013
http://hdl.handle.net/11449/210145
10.1142/S0218301321300010
WOS:000631496100001
url http://dx.doi.org/10.1142/S0218301321300010
http://hdl.handle.net/11449/210145
identifier_str_mv International Journal Of Modern Physics E. Singapore: World Scientific Publ Co Pte Ltd, v. 30, n. 2, 106 p., 2021.
0218-3013
10.1142/S0218301321300010
WOS:000631496100001
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv International Journal Of Modern Physics E
dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv 106
dc.publisher.none.fl_str_mv World Scientific Publ Co Pte Ltd
publisher.none.fl_str_mv World Scientific Publ Co Pte Ltd
dc.source.none.fl_str_mv Web of Science
reponame:Repositório Institucional da UNESP
instname:Universidade Estadual Paulista (UNESP)
instacron:UNESP
instname_str Universidade Estadual Paulista (UNESP)
instacron_str UNESP
institution UNESP
reponame_str Repositório Institucional da UNESP
collection Repositório Institucional da UNESP
repository.name.fl_str_mv Repositório Institucional da UNESP - Universidade Estadual Paulista (UNESP)
repository.mail.fl_str_mv repositoriounesp@unesp.br
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