姓名NAME：Toshitaka Kajino

職稱ACADEMIC TITLE：教授

 

Email：kajino@buaa.edu.cn

辦公地點OFFICE：新主樓H1113

研究方向RESEARCH AREA：粒子物理與原子核物理,理論物理

 

個人簡介SELF INTRODUCTION：

梶野敏貴教授2004年被選為美國物理學會成員。在2016被授予為我國外專高端學者，成為beat365英国官网网站物理科學與核能工程學院特聘教授，同時于2017年在beat365英国官网网站成立了國際大爆炸宇宙學與元素起源國際交叉科學研究中心，任主任。他在原創性研究過程中發表了200多篇論文期刊并參加了250多個國際會議。1988年初從東京開始，每兩年一屆有一個核物理學和天文學在跨學科領域國際年會，名稱是“物質起源和星系演化（omeg）”，他是這個會議的主導者。

擔任過物理學與開放核與粒子物理雜志的各種國

内和國際評論委員會和編委會成員。研究領域包括天體的核反應的研究，大爆炸核合成過程，星星，超新星與中子星合并、星系化學動力學演化、中微子振蕩和粒子宇宙學。

 

教育背景EDUCATION BACKGROUND：

梶野敏貴教授1984年從東京大學獲學士和博士學後立即加入東京都大學獲得教授助理職位

 

工作經曆WORKING EXPERIENCE：

一直在東京都大學(1984 - 1993)和東京大學(1994 -現在)任教授，并于擔任教授期間指導了32名研究生，從2017年3月開始在北航工作，目前招收了兩名直博研究生.

 

課題組主頁（或個人主頁）：

http://th.nao.ac.jp/MEMBER/kajino/e/index.html

 

獎勵與榮譽AWARD AND HONOR:

2004 - present Fellow, American Physical Society (USA)

1986 Jun. - 1987Aug. Visiting Research Associate, National Superconducting Cyclotron

Laboratory,Michigan State University

1987 Sep. - 1992Aug. Consultant, Physics Division, Lawrence Livermore NationalLaboratory,

University ofCalifornia

1989 May -Jun. Visiting Professor, Harvard Smithsonian Center forAstrophysics,

1989 Jul., 1992Feb.-Apr. Visiting Professor, Research School of Physical Sciences,

Institute forAdvanced Studies, Australian National University

1992Jan. Visiting Professor, Research Centerfor Theoretical Astrophysics,

University ofSydney

1995 May –Jun. Visiting Professor, Laboratory for Nuclear andHigh-Energy Physics,

M & P.Curie University of Paris

1996 Oct., 1998Aug. Visiting Professor, Department of Physics, Ohio State University

1996 Jun.-Aug., 2001Jul.-Sep. Visiting Professor, Department of Physics and Center for

 

Astrophysics,University of Notre Dame

2013 Paper selected as Highlight of Journal of Physics G in 2013:

T. Suzuki, and T. Kajino, J. Phys.G40(2013), 083101, “Element

Synthesis in Supernova Environmentand Neutrino Oscillations”

 

學術兼職ACADEMIC PART-TIME JOB：

- The University of Tokyo, GraduateSchool of Science, Professor

- National Astronomical Observatory of Japan, Division of Science, Professor

- The Graduate University for Advanced Studies, School of Physical

Science, Adjunct Professor

- Tohoku University, Graduate Program on Physics for the Universe,

Visiting Lecturer

- Japan Forum of Nuclear Astrophysics, Chairman

 

承擔項目PROJECTS RESPONSIBLE FOR：

1. Creation of space-time,elementary particles and nuclei

2. Origin of dark matter,dark energy, and their roles in cosmic structure formation and cosmic microwavebackground anisotropies

3. Explosion mechanism andnucleosynthesis in supernovae, binary neutron star mergers, gamma-ray bursts

4. Galactic chemo-dynamicalevolution

5. Neutrino astrophysicsand oscillation physics

6. Origin of life andamino-acid homochirality

 

代表性學術成果REPRESENTATIVE ACADEMIC ACHIEVEMENTS:

T. Hayakawa, H. Ko, M.K. Cheoun, M. Kusakabe, T. Kajino, U. Mark, S. Chiba, K. Namakura, T. Alexey,K. Nomoto, M. Hashimoto, M. Ono, G. J. Mathews,

Phys. Rev. Lett.121(2018),Issue 10, id.102701,

Short-livedradioisotope⁹⁸Tc synthesized by supernova neutrino process.

M. A. Famiano, R. N.Boyd, T. Kajino, T. Onaka, and Y. Mo,

Sci. Rep.8(2018),8833,

Amino Acid ChiralSelection Via Weak Interactions in Stellar Environments: Implications for theOrigin of Life.

M. A.Famiano, R. N. Boyd, T. Kajino, T. Onaka,

Astrobiology18(2018), 190-206,

Selection of Amino AcidChirality via Weak Interactions with¹⁴Nin CrossedElectric andMagnetic Fields.

R. N. Boyd, M. A.Famiano, T. Kajino, T. Onaka, and Y. Mo,

Astrophys. J.856(2018),article id. 26, 5 pp,

Sites that can produceleft-handed amino acids in the supernova neutrino aminoacidprocessing model.

T. Maruyama, A. B.Balantekin, M.-K. Cheoun, T. Kajino, and G. J. Mathews,

Phys. Lett.B779(2018),160-165,

Axion Production fromLandau Quantization in the Strong Magnetic Field of Magnetars.

T. Suzuki, T. Yoshida,S. Shibagaki, T. Kajino, and T. Otsuka,

Astrophys.J.859(2018), Issue 2, article id. 133, 9 pp,

Beta-decay Ratesfor Exotic Nuclei and r-process Nucleosynthesis up to Thorium and Uranium.

J. W. Shin, M. K.Cheoun, T. Kajino, and T. Hayakawa,

JCAP09(2018), 024,

Spectralshape analysis for electron antineutrino oscillation study by using⁸Ligenerator with²⁵²Cf source.

K. Mori,M. A.Famiano,T. Kajino,T. Suzuki, P. M. Garnavich, G. J. Mathews, R. Diehl, S.-C. Leung, andK. Nomoto,

Astrophys. J.863(2018),Issue 2, article id. 176, 10 pp,

NucleosynthesisConstraints on the Explosion Mechanism for Type Ia Supernovae.

M. R. Gangopadhyay, G.J. Mathews, K. Ichiki, and T. Kajino,

Eur. Phys. J.C78(2018), Issue 9, article id. 733, 10 pp,

Explaining low lanomalies in the CMB power spectrum with resonant superstring excitationsduring inflation.

G.Abdellaoui et al. with T. Kajino (JEM EUSO Collaboration),

Astropart.Phys.102(2018), 98-111,

EUSO-TA -First results from a ground-based EUSO telescope.

G.Abdellaoui et al. with T. Kajino (JEM EUSO Collaboration),

J. Instr.13,(2018), Issue 05, pp. P05023,

Firstobservations of speed of light tracks by a fluorescence detector looking downon the atmosphere.

T. Kajino,and G. J. Mathews,

Rep.Prog.Phys.80(2017), 084901 (16pp),

Impact ofnew data for neutron-rich heavy nuclei on theoretical models for r-processnucleosynthesis.

S. Q. Hou, J. J. He, A.Parikh, D. Kahl, C. A. Bertulani, T. Kajino, G. J. Mathews & G. Zhao,

Astrophys. J.834(2017), 165,

Non-extensiveStatistics to the Cosmological Lithium Problem.

Y.Hirai, Y.Ishimaru, T. R. Saitoh, M. S. Fujii, J. Hidaka, and T. Kajino,

MNRAS466(2017),2472-2487,

The Relation between Enrichmentof R-process Elements and Dynamical Evolution of Dwarf Galaxies.

J. W. Shin,M. K. Cheoun, T. Kajino, and T. Hayakawa,

JCAP04(2017), 044,

Short-baseline electronantineutrino disappearance study by using neutrino sources From C13+Be9 reaction.

D. G.Yamazaki, M. Kusakabe, T. Kajino, G. J. Mathews, and M.-K. Cheoun,

Int. J. Mod.Phys.E26(2017), 1741006 (12 pages),

The new hybrid BBNmodel with the photon cooling, X particle, and the primordialmagneticfield.

Grant J.Mathews, Motohiko Kusakabe, and Toshitaka Kajino,

Mod. Phys. Lett.E26(2017),1741001 (21 pages),

Introduction toBig-Bang Nucleosynthesis and Modern Cosmology.

MotohikoKusakabe, Grant J. Mathews, Toshitaka Kajino, and Myung-Ki Cheoun,

Int. J. Mod. Phys.E26(2017),1741004 (27 pages),

Review on effects oflong-lived negatively charged massive particles on big-bang nucleosynthesis.

J. W. Shin,M. K. Cheoun, T. Kajino, and T. Hayakawa,

J. Phys.Lett.G44(2017),09LT01; Corrigendum,G45(2018),029501,

A new schemefor short baseline electron antineutrino disappearance study.

H. Sasaki,T. Kajino, T. Takiwaki, T. Hayakawa, A. B. Balantekin, and Y. Pehlivan,

Phys. Rev.D96(2017), 043013,

Possible effects ofcollective neutrino oscillations in the three flavor multi-angle simulations onsupernova νp-process.

T. Hayakawa, T.Nakamura, H. Kotaki, M. Kando, and T. Kajino,

Quantum Beam Scienc1(2017),3 (12pp),

Explosivenucleosynthesis study using laser driveng-ray pulses.

G.Abdellaoui et al. with T. Kajino (JEM EUSO Collaboration),

NuclearInst. And Methods in Physics Research,A866(2017), 150-163,

Cosmic rayoriented performance studies for the JEM-EUSO first level trigger.

G. Abdellaoui et al.with T. Kajino (JEM EUSO Collaboration),

Planetaryand Space Science,143(2017), 245-255,

Meteorstudies in the framework of the JEM-EUSO program.

 

T. Hayakawa, Y. Toh, M.Huang, T. Shizuma, A. Kimura, S. Nakamura, H. Harada, N. Iwamoto, S. Chiba andT. Kajino,

Phys. Rev.C94(2016), 055803,

Measurementof isomer productiuon ratio for the¹¹²Cd(n,g)¹¹³Cd reactionusing neutron beams at J-PARC.

S.Shibagaki, T. Kajino, G. J. Mathews, S. Chiba, S. Nishimura, and G. Lorusso,

Astrophys.J.816(2016), 79,

Relativecontributions of the weak, main and fission-recycling r-process.

T. Maruyama,M.-K. Cheoun, T. Kajino, and G. J. Mathews,

Phys. Lett.B757(2016),125-129,

Pion Production viaProton Synchrotron Radiation in Strong Magnetic Fields in Relativistic FieldTheory: Scaling Relations and Angular Distributions.

M. A.Famiano, A. B. Balantekin, and T. Kajino,

Phys. Rev.C93(2016),045804,

Low-lying resonancesand relativistic screening in Big Bang Nucleosynthesis.

C.Bertulani, and T. Kajino,

Prog. Part.Nucl.Phys.89(2016),56-100,

Frontiers inNuclear Astrophysics.

J. Hidaka,T. Kajino, and G. J. Mathews,

Astrophys.J.827(2016), 85 (6pp),

Red-supergiantand Supernova Rate Problems: Implication for the Relic Supernova NeutrinoSpectrum.

 

G. J.Mathews, B.Rose, P. Garnavich, D. Yamazaki, and T. Kajino,

Astrophys. J.827(2016),60 (11pp),

Detectability of cosmicdark flow in the type Ia supernova redshift-distance relation.

M. A.Famiano, T. Kajino, W. Aoki, and T. Suda,

Astrophys. J.830(2016),61 (13pp),

Dependence of the Sr/Baand Sr/Eu Ratios on the Nuclear Equation of states in the metal-poor halostars.

M. L.Warren, G. J. Mathews, M. Meixner, J. Hidaka, and T. Kajino,

Int. J.Mod. Phys.A31(2016), 1650137,

Impact ofsterile neutrino dark matter on core-collapse supernovae.

J. W. Shin,M. K. Cheoun, T- S. Park, and T. Kajino,

Phys. Rev.C94(2016), 045804,

New neutrinosource for the study of solar neutrino physics in the vacuum-matter transitionregion.

K. Mori,M. A.Famiano,T. Kajino,T. Suzuki,J. Hidaka, M. Honma, K. Iwamoto, K. Nomoto, andT. Otsuka,

Astrophys. J.833(2016), 179,

Impact of New GTStrengths on Explosive SN Ia Nucleosynthesis.

G. Lorusso,et al. with T. Kajino,

Phys. Rev. Lett.114(2015),192501,

β -Decay Half-Lives of110 Neutron-Rich Nuclei across the N =82 Shell Gap: Implications for theMechanism and Universality of the Astrophysical r Process.

Dai. G. Yamazaki,Toshitaka Kajino, Grant J. Mathews, and Kiyotomo Ichiki,

Phys. Rep.517(2012),141-167,

The Search for aPrimordial Magnetic Field.

Takashi Yoshida,Toshitaka Kajino, Hidekazu Yokomakura, Kei-ichi Kimura, Akira Takamura, andDieter Hartmann,

Phys. Rev.Lett.96(2006), 091101,

SupernovaNeutrinos Nucleosynthesis of Light Elements with Neutrino Oscillations.

A. Frebel, et al. withT. Kajino,

Nature434(2005), 871-873,

Nucleosyntheticsignature of the first stars.

 

TakashiYoshida, Toshitaka Kajino, and Dieter Hartmann,

Phys. Rev.Lett.94(2005), 231101,

Constrainingthe Spectrum of Supernova Neutrinos fromn-Process Induced LightElement Synthesis.

T. Hayakawa,N. Iwamoto, T. Shizuma, T. Kajino, H. Umeda, and K. Nomoto,

Phys. Rev. Lett.93(2004), 161102,

Evidence fornucleosynthesis in supernovag-process: Universal scaling on p-nuclei.

K. Ichiki,M. Yahiro, T. Kajino, M. Orito, and G. J. Mathews,

Phys. Rev.D66(2002), 043521,

Observationalconstraints on dark radiation in brane cosmology.

H. Kawakita,et al. with T. Kajino,

Science294(2001), 1089-1091,

The SpinTemperature of NH₃in Comet C/1999S4 (LINEAR).

M. Terasawa, K.Sumiyoshi, T. Kajino, I. Tanihata, and G. J. Mathews,

Astrophys. J.562(2001), 470-479,

New Nuclear ReactionFlow towards R-Process Nucleosynthesis in Supernovae: A Critical Role of theLight Neutron-Rich Nuclei.

S. Wanajo,T. Kajino, and G. J. Mathews, and K. Otsuki,

Astrophys.J.554(2001), 578-586,

Ther-process in netrino-driven winds from nascent compact neutron stars ofcore-collapse supernovae.

K. Otsuki, H. Tagoshi,T. Kajino and S. Wanajo,

Astrophys. J.533(2000), 424-439,

The generalrelativistic effects on neutrino-driven winds from young, hot neutron stars andthe r-process nucleosynthesis.

F. C.Barker, and T. Kajino,

AustralianJ. Phys.44(1991), 369-396,

Channelcontributions to low energy¹²C(⁴He,g)¹⁶O crosssection in massive stars.

T. Kajino,

Phys. Rev. Lett.66(1991),125-128,

Can quark-gluon plasma formation inrelativistic heavy-ion collisions constraininhomogeneous cosmologies?

T. Kajino,and R. N. Boyd,

Astrophys.J.359(1990), 267-276,

Productionof light elements in primordial nucleosynthesis.

T. Kajino,

Nucl. Phys.A460(1986), 559-580,

Thenuclearstructure and reactions of³He(⁴He,g)⁷Be and³H(⁴He,g)⁷Liatastrophysical energies.

 

T. Kajino, and A.Arima,

Phys. Rev. Lett.52(1984), 739-742,

Resonating groupcalculations of radiative capture reactions³He(⁴He,g)⁷Be and³H(⁴He,g)⁷Li atastrophysical low energies and missing solar neutrino problem.