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Henkin Gennadi Markovich
(1942–2016)

Total publications: 146 (145)
in MathSciNet: 129 (127)
in zbMATH: 106 (104)
in Web of Science: 71 (70)
in Scopus: 53 (53)
Cited articles: 114
Citations in Math-Net.Ru: 433
Citations in Web of Science: 789
Citations in Scopus: 621
Presentations: 1

Number of views:
This page:2094
Abstract pages:12047
Full texts:4200
References:836
Henkin Gennadi Markovich
Professor
Doctor of physico-mathematical sciences (1973)
Website: http://mathecon.cemi.rssi.ru/henkin; http://www.math.jussieu.fr/~henkin/

Subject:

functional analysis, complex analysis, geometric analysis, integral geometry, mathematical physics, inverse problems, mathematical economics.

Biography

Born October 26, 1942 in Moscow. Passed away January 19, 2016 in Paris.

1964 — graduated from Mechanics and Mathematics Faculty of Moscow State University.
1967 — Candidate of Physical and Mathematical Sciences, Mechanics and Mathematics Faculty of Moscow State University. Title: "Nonisomorphism of certain spaces of functions of different numbers of variables", Scientific advisor: A. G. Vitushkin.
1973 — Doctor of Physical and Mathematical Sciences, Mechanics and Mathematics Faculty of Moscow State University. Title: "Integral representations in some problems of function in several complex variables".

Moscow State University:

  • 1959–1964 student,
  • 1964–1967 graduate student.

Central Economic Mathematical Institute, USSR Academy of Sciences – Russian Academy of Sciences, Moscow:

  • 1967–2016 from junior to chief research scientist.

Pierre and Marie Curie University, Paris:

  • 1991–2011 Professor of Mathematics (exceptional class since 1996),
  • 2011–2016 Professor Emeritus of Mathematics.

Moscow Institute of Physics and Technology:

  • 2013–2016 Adjunct Professor.

Scientific achievements:
about 150 scientific works (including 2 monographs) on functional analysis, complex analysis and geometry, mathematical physics, mathematical economics.

The award of the Moscow Mathematical Society (1969).

Invited address at the International Congress of Mathematicians (1983).

The Kondratiev Prize of the Russian Academy of Sciences for outstanding work in the field of general economic theory (with V. M. Polterovich, 1992).

Stefan Bergman Prize for fundamental contributions to the theory of functions of several complex variables (2011).

Former Ph.D. students:
A. V. Romanov (1976), A. E. Tumanov (1980), R. A. Airapetian (1981), N. Nivoche (1994), T.-C. Dinh (1997), P. Dingoyan (1998), S. Rigat (1999), F. Sarkis (1999), B. Fabre (2000), L. Pirio (2004), A. Irigoyen (2007).

Administrative positions:

  • 1995–2006 Responsable du DEA (Master 2) "Analyse et Geometrie", Pierre and Marie Curie University, Paris, France,
  • 1999–2003 Membre du Conseil National des Universités (Section 25–Mathématiques), France,
  • 2003–2007 Membre de la Comission de spécialistes (Section 25–Mathématiques), Pierre and Marie Curie University, Paris, France.

Membership in editorial boards:

  • The Journal of Geometric Analysis (1992–2016),
  • Bulletin des Sciences Mathématiques (1992–2016),
  • Annali della Scuola Normale Superiore di Pisa (2002–2016),
  • Journal de l'Institut de Mathématiques de Jussieu (2002–2006),
  • Annales de la Faculté des Sciences de Toulouse Mathématiques (2005–2011).

   
Main publications:
  1. G. M. Henkin, M. Passare, “Abelian differentials on singular varieties and variations on a theorem of Lie–Griffiths”, Inv., Math., 135:2 (1999), 297–328  crossref  mathscinet  zmath  isi  scopus
  2. R. G. Novikov, G. M. Henkin, “The $\bar\partial$-equation in the multidimensional inverse scattering problem”, Russian Math. Surveys, 42:3 (1987), 109–180  mathnet  crossref  mathscinet  zmath  adsnasa  isi
  3. G. M. Henkin, “The method of integral representations in complex analysis”, Complex analysis—several variables – 1, Itogi Nauki i Tekhniki. Ser. Sovrem. Probl. Mat. Fund. Napr., 7, VINITI, Moscow, 1985, 23–124  mathnet  mathscinet  zmath
  4. G. M. Henkin, J. Leiterer, Theory of functions on complex manifolds, Academia-Verlag, Berlin, Birkhauser, 1984 , 226 pp.  mathscinet
  5. G. M. Henkin, “Nonisomorphism of certain spaces of functions of different numbers of variables”, Funct. Anal. Appl., 1:4 (1967), 306–315  mathnet  crossref  mathscinet  zmath  scopus

http://www.mathnet.ru/eng/person18817
List of publications on Google Scholar
http://zbmath.org/authors/?q=ai:henkin.gennadi-markovic
https://mathscinet.ams.org/mathscinet/MRAuthorID/189282
http://elibrary.ru/author_items.asp?authorid=104460
http://www.scopus.com/authid/detail.url?authorId=6603592029

Full list of publications:
| by years | by types | by times cited | scientific publications | common list |



   2016
1. G. M. Henkin, P. L. Polyakov, “Explicit Hodge–type decomposition on projective complete intersections”, J. Geom. Anal., 26:1 (2016), 672–713  crossref  mathscinet  zmath  isi (cited: 1)  elib  scopus (cited: 2)
2. G. M. Henkin, A. A. Shananin, “Cauchy–Gelfand Problem and the Inverse Problem for a First-Order Quasilinear Equation”, Funct. Anal. Appl., 50:2 (2016), 131–142  mathnet  crossref  crossref  mathscinet  isi  elib  scopus

   2015
3. A. Agaltsov, G. M. Henkin, “Explicit reconstruction of Riemann surface with given boundary in complex projective space”, J. Geom. Anal., 25:4 (2015), 2450–2473  crossref  mathscinet (cited: 1)  zmath  isi (cited: 1)  elib  scopus
4. G. M. Henkin, A. A. Shananin, “About Cauchy–Gelfand problem”, Doklady Mathematics, 465:4 (2015), 731–734  crossref  crossref  mathscinet  zmath  isi  scopus
5. G. M. Henkin, V. Michel, “Bishop-Runge approximations and inversion of a Riemann-Klein theorem”, Sb. Math., 206:2 (2015), 311–332  mathnet  crossref  crossref  mathscinet  zmath  adsnasa  isi  elib  elib  scopus

   2014
6. G. M. Henkin, V. Michel, “Problème de Plateau complexe feuilleté. Phénomènes de Hartogs–Severi et Bochner pour des feuilletages CR singuliers”, Bull. Soc. Math. France, 142:1 (2014), 95–126  mathscinet (cited: 1)  zmath  isi  elib  scopus
7. G. M. Henkin, A. A. Shananin, “Cauchy–Gelfand problem for quasilinear conservation law”, Bull. Sci. Math., 138:7 (2014), 783–804  crossref  mathscinet (cited: 1)  zmath  isi (cited: 2)  elib (cited: 2)  scopus (cited: 2)
8. G. M. Henkin, A. A. Shananin, “Mathematical modeling of the schumpeterian dynamics of innovation”, Matem. Mod., 26:8 (2014), 3–19  mathnet  elib

   2012
9. G. M. Henkin, Cauchy–Pompeiu formulas for d-bar on affine algebraic Riemann surfaces and some applications, Birkhauser's Progress in Math. series, Perspectives in Analysis, Geometry and Topology, 296, 2012  mathscinet (cited: 2)  isi
10. G. M. Henkin, M. Santacesaria, “Gelfand–Calderon's inverse problem for anisotropic conductivities on bordered surfaces in $\mathbb R^3$”, Int. Math. Res. Not. IMRN, 4 (2012), 781–809  mathscinet (cited: 1)  zmath  isi  scopus
11. G. M. Henkin, P. L. Polyakov, “Residual $\bar\partial$-cohomology and the complex Radon transform on subvarieties of $\mathbb CP^n$”, Math. Ann., 354:2 (2012), 497–527  crossref  mathscinet (cited: 2)  zmath  isi (cited: 3)  elib (cited: 2)  scopus (cited: 4)
12. G. M. Henkin, “Burgers type equations, Gelfand's problem and Schumpeterian dynamics”, J. Fixed Point Theory Appl., 11:2 (2012), 199–223  crossref  mathscinet (cited: 3)  zmath  isi (cited: 3)  elib (cited: 2)  scopus (cited: 3)
13. G. Henkin, V. Michel, “Inverse Dirichlet-to-Neumann problem for nodal curves”, Russian Math. Surveys, 67:6 (2012), 1069–1089  mathnet  crossref  crossref  mathscinet  zmath  adsnasa  isi (cited: 1)  elib (cited: 4)  elib (cited: 4)  scopus (cited: 2)
14. Proc. Steklov Inst. Math., 279 (2012), 230–244  mathnet  crossref  mathscinet  isi (cited: 2)

   2011
15. G. M. Henkin, R. G. Novikov, “On the reconstruction of conductivity of a bordered twodimensional surface in $\mathbb R^3$ from electrical current measurements on its boundary”, J. Geom. Anal., 21:3 (2011), 543–587  crossref  mathscinet (cited: 7)  zmath  isi (cited: 8)  elib (cited: 5)  scopus (cited: 8)

   2010
16. G. M. Henkin, M. Santacesaria, “On an inverse problem for anisotropic conductivity in the plane”, Inverse Problems, 26:9 (2010), 095011 , 18 pp.  crossref  mathscinet (cited: 6)  zmath  isi (cited: 7)  scopus (cited: 8)

   2008
17. G. M. Henkin, V. Michel, “Inverse conductivity problem on Riemann surfaces”, J. Geom. Anal., 18 (2008), 1033–1052  crossref  mathscinet (cited: 10)  zmath  isi (cited: 13)  elib (cited: 10)  scopus (cited: 11)

   2007
18. G. M. Henkin, V. Michel, “On the explicit reconstruction of a Riemann surface from its Dirichlet–Neumann operator”, Geom. Funct. Anal., 17:1 (2007), 116–155  crossref  mathscinet (cited: 16)  zmath  isi (cited: 18)  elib (cited: 16)  scopus (cited: 17)
19. G. M. Henkin, “Asymptotic structure for solutions of the Cauchy problem for Burgers type equations”, J. Fixed Point Theory and Appl., 1:2 (2007), 239–291  crossref  mathscinet (cited: 5)  zmath  isi (cited: 9)  scopus (cited: 11)

   2006
20. G. M. Henkin, “Cauchy problem for Burgers–Type equations”, Encyclopedia of Math. Physics, v. 1, eds. J.-P. Francoise, G. L. Naber, S. T. Tsun, 2006, 446–454
21. G. M. Henkin, “Envelopes of Holomorphy of Jordan Curves in $\mathbb C^n$”, Proc. Steklov Inst. Math., 253 (2006), 195–211  mathnet  crossref  mathscinet  scopus

   2005
22. G. M. Henkin, A. A. Shananin, A. E. Tumanov, “Estimates for solutions of Burgers type equations and some applications”, J. Math. Pures et Appl., 84:6 (2005), 717–752  crossref  mathscinet (cited: 6)  zmath  isi (cited: 8)  scopus (cited: 10)

   2004
23. G. M. Henkin, “Abel–Radon transform and applications”, The legacy of Niels Henrik Abel, Springer, 2004, 567–584  mathscinet (cited: 6)  isi (cited: 3)
24. G. M. Henkin, A. A. Shananin, “Asymptotic behavior of solutions of the Cauchy problem for Burgers type equations”, J. Math. Pures et Appl., 83:12 (2004), 1457–1500  crossref  mathscinet (cited: 6)  zmath  isi (cited: 10)  scopus (cited: 12)

   2002
25. G. M. Henkin, V. Michel, “Principe de Hartogs dans les varietes CR”, J. Math. Pures et Appl., 81:12 (2002), 1313–1395  crossref  mathscinet (cited: 6)  zmath  isi (cited: 6)  scopus (cited: 7)
26. V. L. Bodneva, V. G. Boltyanskii, I. M. Gel'fand, V. V. Dicusar, A. V. Dmitruk, A. D. Ioffe, V. L. Levin, Ya. M. Kazhdan, N. P. Osmolovskii, V. M. Tikhomirov, G. M. Henkin, “Aleksei Alekseevich Milyutin (obituary)”, Russian Math. Surveys, 57:3 (2002), 577–580  mathnet  crossref  crossref  mathscinet  zmath  adsnasa  isi

   2001
27. C. L. Epstein, G. M. Henkin, “Can a Good Manifold Come to a Bad End?”, Proc. Steklov Inst. Math., 235 (2001), 64–86  mathnet  mathscinet  zmath

   2000
28. Ch. L. Epstein, G. M. Henkin, “Embeddings for $3$-dimensional $\mathrm{CR}$-manifolds, Complex analysis and geometry”, Progress in Math, 188, Birkhauser, 2000, 223–236  mathscinet (cited: 3)  zmath  isi (cited: 1)
29. Ch. L. Epstein, G. M. Henkin, “Two lemmas in local analytic geometry”, Contemporary Math., 251 (2000), 189–195  crossref  mathscinet (cited: 1)  zmath
30. A. Borel, G. M. Henkin, P. Lax, “Jean Leray (1906–1998)”, Notices AMS, 47:3 (2000), 350–359  mathscinet (cited: 2)  zmath
31. G. M. Henkin, A. Iordan, “Regularity of $\bar\partial$ on pseudoconcave compacts and applications”, Asian J. Math., 4:4 (2000), 855–884  crossref  mathscinet (cited: 8)  zmath
32. Ch. L. Epstein, G. M. Henkin, “Stability of embeddings for pseudoconcave surfaces and their boundaries”, Acta Math., 185:2 (2000), 161–237  crossref  mathscinet (cited: 10)  zmath  isi (cited: 9)  scopus (cited: 11)
33. G. M. Henkin, N. N. Novikova, Application of the theory of the Sturm–Liouville inverse problems to the inverse problems of the seismology, Prepublication, Inst. de Math. de Jussieu, Univ. Paris VI et Paris VII, 2000 , 47 pp.; “Erratum”, Asian J. Math., 7:1 (2003), 147–148  crossref  mathscinet (cited: 6)  zmath

   1999
34. G. M. Henkin, M. Passare, “Abelian differentials on singular varieties and variations on a theorem of Lie–Griffiths”, Inv., Math., 135:2 (1999), 297–328  crossref  mathscinet (cited: 28)  zmath  isi (cited: 31)  scopus (cited: 28)

   1998
35. M. L. Gromov, G. M. Henkin, M. A. Shubin, “$L^2$-holomorphic functions on pseudo-convex coverings”, Contemporary Mathematics, 212 (1998), 81–94  crossref  mathscinet (cited: 1)  zmath
36. G. M. Henkin, J. Leiterer, “The Oka–Grauert principle without induction over the base dimension”, Math. Ann., 311 (1998), 71–93  crossref  mathscinet (cited: 28)  zmath  isi (cited: 28)  scopus (cited: 28)
37. G. M. Henkin, “Jean Leray and several complex variables”, Jean Leray, Selected papers, v. III, Springer-Verlag, Soc. Math. France, 1998, 1–31  mathscinet (cited: 3)

   2003
38. G. M. Henkin, N. N. Novikova, “On reconstructing density distribution of horizontally homogeneous liquid through wave-numbers and amplitudes of progressive surface waves”, Comput. seismology and Geodynamics, 5, American Geophysical Union, Washington D.C., 2003, 66–73

   1998
39. M. L. Gromov, G. M. Henkin, M. A. Shubin, “Holomorphic $L^2$ functions on coverings of pseudoconvex manifolds”, GAFA, Geom. Funct. Anal., 8 (1998), 552–585  crossref  mathscinet (cited: 23)  zmath  isi (cited: 23)  scopus (cited: 23)

   1999
40. G. M. Henkin, V. M. Polterovich, “A difference-differential analogue of the Burgers equation and some models of economic development”, Discrete and Continuous Dynamical Systems, 5:4 (1999), 697–728  crossref  mathscinet (cited: 9)  zmath  isi (cited: 9)  scopus (cited: 15)

   1997
41. G. M. Henkin, A. Iordan, “Compactness of the Neumann operator for hyperconvex domains with non-smooth B-regular boundary”, Math. Ann., 307 (1997), 151–168  crossref  mathscinet (cited: 26)  zmath  isi (cited: 29)  scopus (cited: 27)
42. G. M. Henkin, Ch. L. Epstein, “Extension of $\mathrm{CR}$-structures for $3$-dimensional pseudoconcave manifolds”, Contemporary Mathematics, 205 (1997), 51–67  crossref  mathscinet (cited: 6)  zmath
43. P. Dolbeault, G. M. Henkin, “Chaines holomorphes de bord donne dans $\mathbb CP^n$”, Bull. Soc. Math. France, 125:2 (1997), 383–445  mathscinet (cited: 33)  zmath  isi (cited: 34)  scopus (cited: 31)

   1996
44. G. M. Henkin, N. N. Novikova, “The reconstruction of the attracting potential in the Sturm–Liouville equation through characteristics of negative discrete spectrum”, Studies in Appl. Math., 97 (1996), 17–52  crossref  mathscinet (cited: 4)  zmath  isi (cited: 5)  scopus (cited: 5)
45. G. M. Henkin, A. Iordan, J. J. Kohn, “Estimations sous-elliptique pour le problème $\bar\partial$-Neumann dans un domaine strictement pseudoconvex a frontière lisse par morceaux”, C. R. Acad. Sc. Paris, 323 (1996), 17–22  mathscinet (cited: 15)  zmath  isi (cited: 13)

   1995
46. G. M. Henkin, “The Abel–Radon transform and several complex variables”, Annals of Mathematics Studies, 137 (1995), 223–275  mathscinet (cited: 12)  zmath  isi
47. R. Beals, G. M. Henkin, N. N. Novikova, “The inverse boundary problem for the Rayleigh system”, Journal Math. Phys., 36 (1995), 6688–6708  crossref  mathscinet (cited: 1)  zmath  isi (cited: 1)  scopus (cited: 4)

   1994
48. G. M. Henkin, V. M. Polterovich, “The difference-differential analogue of the Burgers equation: stability of the two-wave behavior”, Journal of Nonlinear Sciences, 4 (1994), 497–517  crossref  mathscinet (cited: 5)  zmath  isi (cited: 9)  scopus (cited: 6)
49. P. Dolbeault, G. M. Henkin, “Surface de Riemann de bord donné dans $\mathbb C P^n$”, Aspects of Mathematics, v. E26, Contributions to Complex Analysis and Analytic Geometry Viewing, eds. H. Skoda, J.-M. Trépreau, 1994, 163–187  crossref  mathscinet (cited: 14)  zmath  isi (cited: 16)

   1993
50. P. Dolbeault, G. M. Henkin, “Surface de Riemann de bord donné dans $\mathbb CP^2$”, C. R. Acad. Sc. Paris, 316 (1993), 27–32  mathscinet  zmath

   1992
51. G. M. Henkin, A. A. Shananin, “$\mathbb C^n$-capacity and multidimensional moment problem”, Proceeding Symposium on Value distribution theory in several complex variables, ed. Wilhelm Stoll, University of Notre Dame Press, Notre Dame, Indiana, 1992, 69–85  mathscinet (cited: 1)  zmath
52. G. M. Henkin, “La transformation de Radon pour la cohomologie de Dolbeault et un théorème d'Abel inverse”, C. R. Acad. Sc. Paris, 315 (1992), 973–978  mathscinet (cited: 3)  zmath  isi (cited: 5)

   1991
53. G. M. Henkin, A. A. Shananin, “The Bernstein theorems for the Fantappie indicatrix and their applications to mathematical economics”, The Geometry and complex variables edited by Salvatore Coen, Marcel Dekker, INC, 1991, 221–228  mathscinet (cited: 1)
54. G. M. Henkin, V. M. Polterovich, “Shumpeterian dynamics as a non-linear wave theory”, J. Math. Econ., 20 (1991), 551–590  crossref  mathscinet (cited: 7)  zmath  isi (cited: 17)  scopus (cited: 22)

   1992
55. A. A. Gonchar, N. N. Novikova, G. M. Henkin, “Multipoint Padé approximants in the inverse Sturm–Liouville problem”, Math. USSR-Sb., 73:2 (1992), 479–489  mathnet  crossref  mathscinet  zmath  adsnasa  isi (cited: 6)  scopus (cited: 4)

   1990
56. G. M. Henkin, A. A. Shananin, “The Bernstein theorems and Radon transform. Applications to production function theory”, Mathematical problems of tomography, 81, ed. I. M. Gelfand, 1990, 189–223 , Translations of Math. Monographs  mathscinet (cited: 9)  zmath
57. G. M. Henkin, P. L. Polyakov, “Residue integral formulas and the Radon transform for differential forms on $q$-linearly concave domains”, Math. Ann., 286 (1990), 225–254  crossref  mathscinet (cited: 3)  zmath  isi (cited: 3)  scopus (cited: 3)
58. P. L. Polyakov, G. M. Henkin, “Integral formulas for solution of the $\partial$-equation, and interpolation problems in analytic polyhedra”, Tr. Mosk. Mat. Obs., 53, MSU, M., 1990, 130–170  mathnet  mathscinet  zmath
59. G. M. Henkin, V. M. Polterovich, “Evolutional model for economical growth”, Matecon, 26:3 (1990), 44–64  mathscinet  zmath  isi (cited: 1)

   1989
60. G. M. Henkin, P. L. Polyakov, “The Grothendieck-Dolbeault lemma for complete intersections”, C. R. Acad. Sc. Paris, 308 (1989), 405–409  mathscinet (cited: 14)  zmath  isi (cited: 16)
61. R. G. Novikov, G. M. Henkin, “Yang–Mills fields, the Radon–Penrose transform and the Cauchy–Riemann equations”, Complex analysis—several variables – 5, Itogi Nauki i Tekhniki. Ser. Sovrem. Probl. Mat. Fund. Napr., 54, VINITI, Moscow, 1989, 113–196  mathnet  mathscinet  zmath

   1988
62. G. M. Henkin, V. M. Polterovich, “Nonlinear evolution equation for the distribution of technologies according to efficiency levels”, Nonlinear evolutions, World Scientific, 1988, 449–458  mathscinet (cited: 2)

   1989
63. G. M. Henkin, V. M. Polterovich, “Evolution model for the processes creation and imitation of technologies”, Matecon, 26:1 (1989)  mathscinet

   1988
64. G. M. Henkin, V. M. Polterovich, Diffusion of technologies and economical grows, Preprint, Central Econ. and Math. Inst., Moscow, 1988
65. G. M. Henkin, V. M. Polterovich, “Economical growth and the dissemination mechanism of new technologies”, Mathem. models for social-economical and demography processes, Institute of Economics, Erevan, 1988, 139–140
66. G. M. Henkin, J. Leiterer, Andreotti-Grauert theory by integral formulas, Akademic-Verlag, Berlin, Birkhauser, 1988 , 270 pp.  mathscinet (cited: 3)  zmath
67. G. M. Henkin, V. M. Polterovich, “Evolution equation for distribution of technologies under several efficiencies”, Mathem. models of econom. mechanisms, Central Econ. and Math. Inst., Moscow, 1988, 74–88
68. G. M. Henkin, R. G. Novikov, “A multidimensional inverse problem in quantum and acoustic scattering”, Inverse problems, 4:1 (1988), 103–121  crossref  mathscinet (cited: 15)  zmath  isi (cited: 30)  scopus (cited: 26)

   1987
69. G. M. Henkin, R. G. Novikov, “Solution of a multidimensional inverse scattering problem on the basis of generalized dispersion relations”, Soviet Math. Dokl., 35:1 (1987), 153–157  mathnet  mathscinet  zmath  isi

   1988
70. G. M. Henkin, N. N. Novikova, “Reconstruction of the Sturme–Liouville operator from characteristics of the discrete spectre”, Comp. seismology. Numerical Modeling and Analysis of Geophysical Processes, 20 (1988), 168–178
71. V. M. Markushevich, G. M. Henkin, “Explicit formulas for reconstructing elastic parameters of a half-space by Rayleigh surface waves”, Comp. seismology. Numerical Modeling and Analysis of Geophysical Processes, 20 (1988), 161–167

   1987
72. A. B. Pomanskii, G. Yu. Trofimov, G. M. Khenkin, “Ob analiticheskom podkhode k issledovaniyu imitatsionnykh modelei ekonomicheskikh sistem”, Ekonomika i matematicheskie metody, 23:3 (1987), 485–495  mathscinet
73. G. M. Henkin, V. M. Markushevich, “Inverse problems for the elastic waves in a layered halfspace”, Inverse problems, Academic Press, 1987, 191–204  mathscinet  isi
74. A. B. Pomanskii, G. Yu. Trofimov, G. M. Khenkin, “Raspredelenie investitsionnykh fondov mezhdu podrazdeleniyami proizvodstvennogo obekta”, Optimizatsiya planirovaniya i funktsionirovaniya proizvodstvennykh obedinenii, TsEMI AN SSSR, M., 1987, 133–145
75. V. Ya. Altaev, A. B. Pomanskii, G. Yu. Trofimov, G. M. Khenkin, “Ob analiticheskom podkhode k issledovaniyu imitatsionnykh modelei ekonomicheskikh sistem”, Ekonomika i matematicheskie metody, 23:3 (1987), 485–495  zmath
76. R. G. Novikov, G. M. Henkin, “The $\bar\partial$-equation in the multidimensional inverse scattering problem”, Russian Math. Surveys, 42:3 (1987), 109–180  mathnet  crossref  mathscinet  zmath  adsnasa  isi (cited: 63)

   1986
77. G. M. Henkin, J. Leiterer, Proof of Grauert's Oka principle without induction over the basis dimension, Preprint 05/86, Institute fur mathematik, Berlin, 1986  mathscinet

   1987
78. P. L. Polyakov, G. M. Henkin, “Homotopy formulas for the $\overline\partial$-operator on $\mathbf CP^n$ and the Radon–Penrose transform”, Math. USSR-Izv., 28:3 (1987), 555–587  mathnet  crossref  mathscinet  zmath  isi (cited: 2)  scopus (cited: 6)

   1985
79. G. M. Henkin, P. L. Polyakov, “Residue integral formulas and the Radon–Penrose transform for nonclosed forms”, Soviet Math. Dokl., 32:1 (1985), 90–96  mathnet  mathscinet  zmath  isi

   1990
80. G. M. Henkin, S. G. Gindikin, “Cauchy–Fantappie formula on projective space”, Amer. Math. Soc. Transl. (2), 146 (1990), 23–31  crossref  mathscinet

   1985
81. G. M. Henkin, “The method of integral representations in complex analysis”, Complex analysis—several variables – 1, Itogi Nauki i Tekhniki. Ser. Sovrem. Probl. Mat. Fund. Napr., 7, VINITI, Moscow, 1985, 23–124  mathnet  mathscinet  zmath

   1986
82. R. A. Airapetyan, G. M. Henkin, “Integral representations of differential forms on Cauchy–Riemann manifolds and the theory of $CR$-functions. II”, Math. USSR-Sb., 55:1 (1986), 91–111  mathnet  crossref  mathscinet  zmath  isi (cited: 2)  scopus (cited: 16)

   1984
83. G. M. Henkin, “Exotic Jordan arcs in $\mathbb C^n$”, Linear and Complex Analysis Problem Book, Lecture Notes in Mathematics, 1043, 1984, 483–484  crossref  isi  scopus
84. G. M. Henkin, J. Leiterer, Theory of functions on complex manifolds, Academia-Verlag, Berlin, Birkhauser, 1984 , 226 pp.  mathscinet (cited: 24)
85. G. M. Henkin, “The Hartogs–Bochner effect on $\mathrm{CR}$-manifolds”, Soviet Math. Dokl., 29:1 (1984), 78–82  mathnet  mathscinet  zmath  isi
86. G. M. Henkin, “Tangent Cauchy–Riemann equations and the Yang–Mills, Higgs and Dirac fields”, Proceedings of the international Congress of mathematicians (1983, Warsawa), v. 11, 1984, 809–827  mathscinet  zmath
87. G. M. Henkin, Yu. V. Ovsienko, A. B. Pomanskii, V. P. Rusakov, “About relations between productivity of labor, wages and prices”, Economics and mathem. methods, 20:5 (1984), 871–881
88. G. M. Henkin, P. L. Polyakov, “Les zéros des fonctions holomorphes d'ordre fini dans le bidisque”, Compte Rendus Acad. Sc. Paris, 298, Serie I:2 (1984), 5–8  mathscinet  zmath  isi (cited: 3)
89. G. M. Henkin, P. L. Polyakov, “Prolongement des fonctions holomorphes bornées d'une sousvariété du polydisque”, Compte Rendus Acad. Sc. Paris, 298, Serie I (1984), 221–224  mathscinet (cited: 3)  zmath  isi (cited: 7)
90. G. M. Henkin, R. G. Novikov, “Proper mapping of classical domains”, Springer Lecture Notes, 1043 (1984), 625–628  isi (cited: 10)
91. R. A. Airapetyan, G. M. Henkin, “Integral representations of differential forms on Cauchy–Riemann manifolds and the theory of CR-functions”, Russian Math. Surveys, 39:3 (1984), 41–118  mathnet  crossref  mathscinet  zmath  adsnasa  isi (cited: 35)
92. R. G. Novikov, G. M. Henkin, “Oscillating weakly localized solutions of the Korteweg–de Vries equation”, Theoret. and Math. Phys., 61:2 (1984), 1089–1099  mathnet  crossref  mathscinet  zmath  isi (cited: 6)  scopus (cited: 9)

   1983
93. G. M. Khenkin, “Polya Yanga–Millsa–Khiggsa–Diraka i golomorfnye vektornye rassloeniya”, Teoretiko-gruppovye metody v fizike, Tr. seminara (Zvenigorod, 1982), v. 1, Nauka, M., 1983, 107–115
94. A. E. Tumanov, G. M. Henkin, “Local characterization of holomorphic automorphisms of Siegel domains”, Funct. Anal. Appl., 17:4 (1983), 285–294  mathnet  crossref  mathscinet  zmath  isi (cited: 6)  scopus (cited: 35)

   1982
95. G. M. Henkin, Yu. I. Manin, “Yang–Mills–Dirac equations as Cauchy–Riemann equations in the twistor space”, Journal of Nuclear physics, 35:6 (1982), 941–950  mathscinet  zmath  isi (cited: 3)
96. G. M. Henkin, A. E. Tumanov, “Local characterization of analytic automorphisms of classical domains”, Soviet Math. Dokl., 26:3 (1982), 702–705  mathnet  mathscinet  zmath  isi
97. G. M. Henkin, “Yang–Mills–Higgs fields as holomorphic vector bundles”, Soviet Math. Dokl., 26:1 (1982), 224–228  mathscinet  zmath  isi

   1981
98. G. M. Henkin, J. Leiterer, “Global integral formulas for solving the $\bar\partial$-equation on Stein manifolds”, Annales Polonici Mathematice, 39 (1981), 93–116  mathscinet (cited: 4)  zmath
99. G. M. Henkin, “Solution des equations de Cauchy–Riemann tangentielles sur des variétés de Cauchy–Riemann $q$-concaves”, Comptes Rendus Acad. Sc. Paris, 292 (1981), 27–30  mathscinet (cited: 16)  zmath  isi (cited: 28)
100. G. M. Henkin, Yu. I. Manin, “On the cohomology of twistor flag spaces”, Composito Mathematica, 44:1–3 (1981), 103–111  mathscinet (cited: 2)  zmath
101. R. A. Airapetyan, G. M. Henkin, “Analytic continuation of $\mathrm{CR}$-functions though the “edge of the wedge””, Soviet Math. Dokl., 24:1 (1981), 128–132  mathscinet  zmath  isi
102. G. M. Henkin, “Representation of solutions of the $\Phi4$-equation in the form of holomorphic vector bundles over twistor space”, Soviet Math. Dokl., 24:2 (1981), 415–419  mathscinet  zmath  isi
103. G. M. Henkin, “Mathematical models for reduction of qualified labor to simple labor”, Economics and mathem. methods, 17:2 (1981), 334–343

   1983
104. S. G. Gindikin, G. M. Henkin, “The Penrose transform and complex integral geometry”, J. Soviet Math., 21:4 (1983), 508–551  mathnet  crossref  mathscinet  zmath  scopus (cited: 2)

   1980
105. G. M. Henkin, “Analytic representation for $\mathrm{CR}$-functions on submanifolds of codimension $2$ in $\mathbb C^n$”, Soviet Math. Dokl., 21:1 (1980), 85–89  mathscinet  isi
106. S. G. Gindikin, G. M. Henkin, “Complex integral geometry and Penrose representation for solutions of rest-mass equations”, Group theoretical methods in physics, Proceedings of the international seminar (Zvenigorod, 1979), v. 11, Nauka, Moscow, 1980, 145–150
107. G. M. Henkin, “Relations between prices, wages and the norm of additional product in planned economics”, Problems of application of mathematical methods in economical analysis, CEMI AN SSSR, Moscow, 1980, 50–74
108. G. M. Henkin, “Analytic representation for $\mathrm{CR}$-functions on submanifolds of codimension $2$ in $\mathbb C^n$”, Springer Lecture Notes in Mathematics, 798 (1980), 169–191  crossref  mathscinet (cited: 1)  zmath
109. G. M. Henkin, “Representation of Yang–Mills equations in the form of Cauchy–Riemann equations on twistor space”, Soviet Phys. Dokl., 25 (1980), 986–988  mathscinet  isi
110. G. M. Henkin, Yu. I. Manin, “Twistor description of classical Yang—Mills–Dirac fields”, Physics Letters, 95B:3,4 (1980), 405–408  crossref  mathscinet (cited: 3)  isi (cited: 29)

   1981
111. A. G. Sergeev, G. M. Henkin, “Uniform estimates for solutions of the $\overline\partial$-equation in pseudoconvex polyhedra”, Math. USSR-Sb., 40:4 (1981), 469–507  mathnet  crossref  mathscinet  zmath  isi (cited: 4)  scopus (cited: 5)

   1980
112. S. G. Gindikin, G. M. Henkin, “Complex integral geometry and Penrose's representation of the solutions of Maxwell's equations”, Theoret. and Math. Phys., 43:1 (1980), 293–302  mathnet  crossref  mathscinet  zmath  isi (cited: 2)  scopus (cited: 2)

   1979
113. G. M. Henkin, “Integral representations of forms in pseudoconcave domains and some applications”, Abstracts of conference on analytic functions (Kozubnik, 1979), University of Lodz, 1979 , 21 pp.

   1978
114. A. I. Petrosyan, G. M. Khenkin, “Reshenie s ravnomernoi otsenkoi $\bar\partial$-uravneniya v veschestvenno nevyrozhdennom poliedre Veilya”, Izv. AN Arm. SSR, 13:5–6 (1978), 428–441  mathscinet (cited: 1)  zmath
115. S. G. Gindikin, G. M. Henkin, “Transformation de Radon pour la $\bar\partial$-cohomologie des domaines $q$-lineairoment concaves”, Comptes Rendus Acad. Sci. Paris, A303 (1978), 2117–2120  mathscinet (cited: 2)
116. S. G. Gindikin, G. M. Henkin, “Integral geometry for $\bar\partial$-cohomology in $q$-linear concave domains in $\mathbb{CP}^n$”, Funct. Anal. Appl., 12:4 (1978), 247–261  mathnet  crossref  mathscinet  zmath  scopus (cited: 9)

   1979
117. Sh. A. Dautov, G. M. Henkin, “Zeros of holomorphic functions of finite order and weighted estimates for solutions of the $\bar\partial$-equation”, Math. USSR-Sb., 35:4 (1979), 449–459  mathnet  crossref  mathscinet  zmath  isi (cited: 4)

   1984
118. G. M. Henkin, “Exotic Jordan arcs in $\mathbb C^n$”, J. Soviet Math., 26:5 (1984), 2228–2229  mathnet  crossref

   1977
119. G. M. Henkin, “The Lewy equation and analysis on pseudoconvex manifolds”, Russian Math. Surveys, 32:3 (1977), 59–130  mathnet  crossref  mathscinet  zmath  scopus (cited: 56)
120. G. M. Henkin, “H. Lewy's equation and analysis on a pseudoconvex manifold. II”, Math. USSR-Sb., 31:1 (1977), 63–94  mathnet  crossref  mathscinet  zmath  isi (cited: 15)  scopus (cited: 11)

   1980
121. G. M. Henkin, A. E. Tumanov, “Interpolation submanifolds of pseudoconvex manifold”, Am. Math. Soc., 115 (1980), 59–69  mathscinet

   1975
122. G. M. Henkin, “Solutions with estimates of the H.Lewy and Poincare–Lelong equations. The construction of functions of a Nevanlinna class with given zeros in a strictly pseudoconvex domain”, Soviet Math. Dokl., 16:5 (1975), 1310–1314  mathnet  mathscinet  mathscinet  zmath

   1976
123. G. M. Henkin, E. M. Chirka, “Boundary properties of holomorphic functions of several complex variables”, J. Soviet Math., 5:5 (1976), 612–687  mathnet  crossref  mathscinet  zmath  scopus (cited: 33)

   1974
124. G. M. Henkin, “Estimates of Holder index for the raising a dimension mapping”, Mathematical economics and functional analysis, Nauka, Moscow, 1974, 258–260  mathscinet

   1973
125. G. M. Henkin, “An analytic polyhedron is not holomorphically equivalent to a strongly pseudoconvex domain”, Soviet Math. Dokl., 14:3 (1973), 858–862  mathnet  mathscinet (cited: 18)  mathscinet (cited: 18)  zmath

   1972
126. G. M. Henkin, “Continuation of bounded holomorphic functions from submanifolds in general position to strictly pseudoconvex domains”, Math. USSR-Izv., 6:3 (1972), 536–563  mathnet  crossref  mathscinet  zmath  scopus (cited: 23)

   1971
127. G. M. Henkin, “Approximation of functions in pseudoconvex domains and the theorem of Z. L. Leibenson”, Bull. Poland Academy of Sciences, 19:1 (1971), 37–42  mathscinet (cited: 13)  zmath
128. B. S. Mityagin, G. M. Henkin, “The absence of a linear resolvent operator in problems in the theory of holomorphic functions”, Funct. Anal. Appl., 5:1 (1971), 70–71  mathnet  crossref  mathscinet  zmath  scopus (cited: 1)
129. A. V. Romanov, G. M. Henkin, “Exact Hölder estimates for the solutions of the $\bar\partial$-equation”, Math. USSR-Izv., 5:5 (1971), 1180–1192  mathnet  crossref  mathscinet  zmath  scopus (cited: 17)
130. B. S. Mityagin, G. M. Henkin, “Linear problems of complex analysis”, Russian Math. Surveys, 26:4 (1971), 99–164  mathnet  crossref  mathscinet  zmath  scopus (cited: 9)
131. G. M. Henkin, “A uniform estimate for the solution of the $\bar\partial$-problem in a Weil region”, Uspekhi Mat. Nauk, 26:3(159) (1971), 211–212  mathnet  mathscinet  zmath

   1970
132. G. M. Henkin, “On non-isomorphism of Banach spaces of holomorphic functions”, Studia Mathematica, 38 (1970), 267–270  mathscinet  zmath
133. B. S. Mityagin, G. M. Henkin, “Linear separation of singularities, and a problem of the isomorphism of spaces of holomorphic functions”, Uspekhi Mat. Nauk, 25:6(156) (1970), 227–228  mathnet  mathscinet  zmath
134. G. M. Henkin, “Integral representation of functions in strictly pseudoconvex domains and applications to the $\overline\partial$-problem”, Math. USSR-Sb., 11:2 (1970), 273–281  mathnet  crossref  mathscinet  zmath  scopus (cited: 45)

   1969
135. G. M. Henkin, “Integral representations of functions holomorphic in strictly pseudo-convex domains and some applications”, Math. USSR-Sb., 7:4 (1969), 597–616  mathnet  crossref  mathscinet  zmath

   1968
136. G. M. Henkin, “The Banach spaces of analytic functions in a sphere and in a bicylinder are not isomorphic”, Funct. Anal. Appl., 2:4 (1968), 334–341  mathnet  crossref  mathscinet  zmath  scopus (cited: 8)

   1967
137. G. M. Henkin, “Proof of the nonisomorphism of smooth function spaces on a segment and on a square”, Soviet Math. Dokl., 8:1 (1967), 46–49  mathnet  mathscinet  zmath
138. G. M. Henkin, “Nonisomorphism of Banach spaces of analytic functions of one variable and of two variables”, Soviet Math. Dokl., 8:5 (1967), 1273–1276  mathnet  mathscinet  zmath
139. G. M. Henkin, “Nonisomorphism of certain spaces of functions of different numbers of variables”, Funct. Anal. Appl., 1:4 (1967), 306–315  mathnet  crossref  mathscinet  zmath  scopus (cited: 4)
140. A. G. Vitushkin, G. M. Henkin, “Linear superpositions of functions”, Russian Math. Surveys, 22:1 (1967), 77–125  mathnet  crossref  mathscinet  zmath
141. G. M. Henkin, “Impossibility of a uniform homeomorphism between spaces of smooth functions of one and of $n$ variables ($n\ge2$)”, Math. USSR-Sb., 3:4 (1967), 551–561  mathnet  crossref  mathscinet  zmath

   1964
142. G. M. Henkin, “On linear superpositions of continuously differentiable functions”, Soviet Math. Dokl., 5 (1964), 948–950  mathnet  mathscinet (cited: 4)  mathscinet (cited: 4)  zmath

   1963
143. G. M. Henkin, B. S. Mitiagin, “Inequalities between different $n$-diameters”, Proceedings of seminar in functional analysis, 7, Voronech Univ., 1963, 97–103
144. A. A. Khelemskii, G. M. Khenkin, “O vlozhenii kompaktov v ellipsoidy”, Vestnik Moskovskogo Universiteta, 2 (1963), 3–12
145. G. M. Henkin, “On imbedding of the $s$-smooth function space of n variables into the sufficiently smooth function space of smaller number of variables”, Soviet Math. Dokl., 4 (1963), 1633–1636  mathnet  mathscinet  zmath
146. G. M. Henkin, “Stability of unconditional bases in a uniformly convex space”, Uspekhi Mat. Nauk, 18:6(114) (1963), 219–223  mathnet  mathscinet  zmath

Presentations in Math-Net.Ru
1. Explicit Hodge decomposition on Riemann surfaces with application to inverse conductivity problem
G. M. Henkin

September 2, 2015 16:30   

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