Educational Background

* April, 1986 – March, 1990
      Department of Physics, University of Tokyo.
      Degrees: B.Sc (Physics)
* April, 1990 – March, 1992
      Graduate School of Science, University of Tokyo.
      Degrees: M.Sc (Physics)
* April, 1992 – March, 1995
      Graduate School of Science, University of Tokyo.
      Degrees: D.Sc (Physics)

Research Careers

* 1 April, 1994 – 14 August, 1995
      National Laboratory for High Energy Physics (KEK),
      Research Fellow of the Japan Society for the Promotion of Science.
* 15 August, 1995 – 31 October, 1998
      Department of Physics, Nagoya University, Assistant Professor.
* 1 November, 1998 – 31 October, 2000
      Niels Bohr Institute, Postdoctoral Fellow (for Research Abroad)
      of the Japan Society for the Promotion of Science
* 1 November, 2000 – 31 October, 2001
      Niels Bohr Institute, Research Assistant Professor.
* 1 November, 2001 – 31 March, 2003
      Department of Physics, Nagoya University, Assistant Professor.
* 1 April, 2003 -
      High Energy Accelerator Research Organization (KEK), Associate Professor.

list of main publications

[1] M.Hanada, J.Nishimura, Y.Sekino and T.Yoneya,
“Monte Carlo studies of Matrix theory correlation functions,”
Physical Review Letters 104 (2010) 151601.

[2] M.Hanada, Y.Hyakutake, J.Nishimura and S.Takeuchi,
“Higher derivative corrections to black hole thermodynamics from
supersymmetric matrix quantum mechanics,”
Physical Review Letters 102 (2009) 191602.

[3] M.Hanada, A.Miwa, J.Nishimura and S.Takeuchi,
“Schwarzschild radius from Monte Carlo calculation of the Wilson loop
in supersymmetric matrix quantum mechanics,”　
Physical Review Letters 102 (2009) 181602.

[4] G.Ishiki, S.-W.Kim, J.Nishimura and A.Tsuchiya,
“Deconfinement phase transition in N=4 super Yang-Mills theory
on R×S3 from supersymmetric matrix quantum mechanics,”
Physical Review Letters 102 (2009) 111601.

[5] K.N.Anagnostopoulos, M.Hanada, J.Nishimura and S.Takeuchi,
“Monte Carlo studies of supersymmetric matrix quantum mechanics with
sixteen supercharges at finite temperature,”
Physical Review Letters 100 (2008) 021601.

[6] M.Hanada, J.Nishimura and S.Takeuchi,
“Non-lattice simulation for supersymmetric gauge theories in one
dimension,”
Physical Review Letters 99 (2007) 161602.

[7] T.Azuma, S.Bal, K.Nagao and J.Nishimura,
“Nonperturbative studies of fuzzy spheres in a matrix model
with the Chern-Simons term”,
Journal of High Energy Physics 0405 (2004) 005.

[8] J.Ambjorn, K.N.Anagnostopoulos, J.Nishimura and J.J.Verbaarschot,
“The factorization method for systems with a complex action:
A test in Random Matrix Theory for finite density QCD”,
Journal of High Energy Physics 0210 (2002) 062.

[9] J.Nishimura and F.Sugino,
“Dynamical generation of four-dimensional space-time
in the IIB matrix model”,
Journal of High Energy Physics 0205 (2002) 001.

[10] K.N.Anagnostopoulos and J.Nishimura,
“New approach to the complex-action problem and
its application to a nonperturbative study of superstring theory”,
Physical Review D 66 (2002) 106008.

[11] J.Nishimura and G.Vernizzi,
“Brane world generated dynamically from string type IIB matrices”,
Physical Review Letters 85 (2000) 4664.

[12] J.Ambjorn, K.N.Anagnostopoulos, W.Bietenholz, T.Hotta and
J.Nishimura,
“Monte Carlo studies of IIB matrix model at large N”,
Journal of High Energy Physics 0007 (2000) 011.

[13] J.Ambjorn, Y.M.Makeenko, J.Nishimura and R.J.Szabo,
“Lattice gauge fields and discrete noncommutative Yang-Mills theory”,
Journal of High Energy Physics 0005 (2000) 023.

[14] J.Ambjorn, K.N.Anagnostopoulos, W.Bietenholz, T.Hotta and
J.Nishimura,
“Large N dynamics of dimensionally reduced 4D SU(N)
super Yang-Mills theory”,　
Journal of High Energy Physics 0007 (2000) 013.

See this page for details.

For the details, see
http://research.kek.jp/people/kohri/

For Group page, see
http://cosmophysics.kek.jp/

 Academic history

１９８０　　　　　　Univ. of Tokyo　B.S.　　
１９８３　　　　　　Princeton Univ.　PhD.　　
１９８３　　　　　　Univ. of Chicago　Research associate　
１９８６　　　　　　Rockefeller Univ.　 Research associate　　　
１９８７　　　　　　Univ. of Tokyo  Assistant Professor　　　　
１９９１　　　　　　Tokyo Inst. Tech Associate Professor　　
１９９８　　　　　　KEK  Professor

Selected papers

Non-linear sigma model in de Sitter space.
Hiroyuki Kitamoto, Yoshihisa Kitazawa
Phys.Rev. D83 (2011) 104043

Boltzmann equation in de Sitter space.
Hiroyuki Kitamoto, Yoshihisa Kitazawa
Nucl.Phys. B839 (2010) 552-579

Matrix models in homogeneous spaces.
Yoshihisa Kitazawa
Nucl.Phys. B642 (2002) 210-226

Wilson loops in noncommutative Yang-Mills.
Nobuyuki Ishibashi, Satoshi Iso, Hikaru Kawai, Yoshihisa Kitazawa
Nucl.Phys. B573 (2000) 573-593

Noncommutative Yang-Mills in IIB matrix model.
Hajime Aoki, Nobuyuki Ishibashi, Satoshi Iso, Hikaru Kawai, Yoshihisa Kitazawa, Tsukasa Tada
Nucl.Phys. B565 (2000) 176-192

Space-time structures from IIB matrix model.
Hajime Aoki, Satoshi Iso, Hikaru Kawai, Yoshihisa Kitazawa, Tsukasa Tada
Prog.Theor.Phys. 99 (1998) 713-746

A Large N reduced model as superstring.
N. Ishibashi, H. Kawai, Y. Kitazawa, A. Tsuchiya.
Nucl.Phys. B498 (1997) 467-491

Ultraviolet stable fixed point and scaling relations in (2+epsilon)-dimensional quantum gravity.
Hikaru Kawai, Yoshihisa Kitazawa, Masao Ninomiya
Nucl.Phys. B404 (1993) 684-716

Scaling exponents in quantum gravity near two-dimensions.
Hikaru Kawai, Yoshihisa Kitazawa, Masao Ninomiya
Nucl.Phys. B393 (1993) 280-300

Gravitational descendents in Liouville theory.
Y. Kitazawa
Phys.Lett. B265 (1991) 262-268

A Quenched Momentum Prescription for Large N Theories.
David J. Gross, Yoshihisa Kitazawa
Nucl.Phys. B206 (1982) 440

Selected papers

Stochastic Equations in Black Hole Backgrounds and Non-equilibrium Fluctuation Theorems
Satoshi Iso, Susumu Okazawa
Nucl.Phys. B851 (2011) 380-419.

Stochastic Analysis of an Accelerated Charged Particle
Satoshi Iso, Yasuhiro Yamamoto, Sen Zhang.
Phys.Rev. D84 (2011) 025005.

Non-Equilibrium Fluctuations of Black Hole Horizons
Satoshi Iso, Susumu Okazawa, Sen Zhang.
Physics Letters B (2011)

The minimal B-L model naturally realized at TeV scale
Satoshi Iso, Nobuchika Okada, Yuta Orikasa.
Phys.Rev. D80 (2009) 115007.

Higher-spin Currents and Thermal Flux from Hawking Radiation
Satoshi Iso, Takeshi Morita, Hiroshi Umetsu.
Phys.Rev. D75 (2007) 124004.

Anomalies, Hawking radiations and regularity in rotating black holes
Satoshi Iso, Hiroshi Umetsu, Frank Wilczek.
Phys.Rev. D74 (2006) 044017.

Hawking radiation from charged black holes via gauge and gravitational anomalies
Satoshi Iso, Hiroshi Umetsu, Frank Wilczek.
Phys.Rev.Lett. 96 (2006) 151302.

Ginsparg-Wilson relation, topological invariants and finite noncommutative geometry
Hajime Aoki, Satoshi Iso, Keiichi Nagao.
Phys.Rev. D67 (2003) 085005.

Noncommutative gauge theory on fuzzy sphere from matrix model
Satoshi Iso, Yusuke Kimura, Kanji Tanaka, Kazunori Wakatsuki.
Nucl.Phys. B604 (2001) 121-147.

Wilson loops in noncommutative Yang-Mills
Nobuyuki Ishibashi, Satoshi Iso, Hikaru Kawai, Yoshihisa Kitazawa.
Nucl.Phys. B573 (2000) 573-593.

Noncommutative Yang-Mills in IIB matrix model
H.Aoki, N.Ishibashi, S.Iso, H.Kawai, Y.Kitazawa, T.Tada.
Nucl.Phys. B565 (2000) 176-192.

Space-time structures from IIB matrix model
H.Aoki,S.Iso, H.Kawai, Y.Kitazawa, T.Tada.
Prog.Theor.Phys. 99 (1998) 713-746.

Anyon basis of c = 1 conformal field theory
Satoshi Iso.
Nucl.Phys. B443 (1995) 581-595.

Fermions in the lowest Landau level:
Bosonization, W infinity algebra, droplets, chiral bosons
Satoshi Iso, Dimitra Karabali, B. Sakita.
Phys.Lett. B296 (1992) 143-150.

One-dimensional fermions as two-dimensional droplets via Chern-Simons theory
Satoshi Iso, Dimitria Karabali, B. Sakita.
Nucl.Phys. B388 (1992) 700-714.

Canonical formulation of quantum tunneling with dissipation
Kazuo Fujikawa, Satoshi Iso, Misao Sasaki, Hiroshi Suzuki.
Phys.Rev.Lett. 68 (1992) 1093-1096.