Publications

  1. Spaces of holomorphic mappings on locally convex spaces, Portugaliae Math. 45, 3 (1988), 273-293.
  2. A generalization of Cartan’s uniqueness theorem on locally convex spaces, Bull. Korean Math. Soc. 25, 1 (1988), 1-4.
  3. Some remarks on the Cartan-Thullen theorem for locally convex spaces, Pusan Kyongnam Math. J. 4 (1988), 101-106.
  4. Concerning conditions for holomorphic factorization and uniform holomorphy, J. Math. Anal. Appl. 135, 2 (1988), 611-614.
  5. ELB holomorphic factorization over projective limit representations, Portugaliae Math. 47, 3 (1990), 331-339.
  6. Boundaries for algebras of analytic functions on dual Banach spaces, Proceedings of the 1-st GARC Symposium on Pure and Applied Math. Part II (ed. H. Kim et al.), 1992, 83-87.
  7. Weakly continuous entire function, Proc. 1-st Korean-Japanese Conference on Finite or Infinite Complex Analysis (ed. J. Kajiwara et al.), 1993, 225-229.
  8. Boundaries for algebras of analytic functions on infinite dimensional Banach spaces, Contemporary Mathematics, A.M.S. 144 (1993), 15-22.
  9. Compact diagonal linear operators on Banach spaces with unconditional bases, Internat. J. Math. Math. Sci. 16, 4 (1993), 823-824.
  10. Polynomial properties on Banach spaces, Operator Algebra and Applications (ed. S.G. Lee) Proc. of Workshop in Mathematics 13, Part III, 1994, 22-27.
  11. Boundary behavior of a lifted holomorphic mapping, Proc. Royal Irish Acad. 94A, 1 (1994), 127-132.
  12. Polynomial properties of Banach spaces, J. Math. Anal. Appl. 190, 1 (1995), 203-210.
  13. Estimates by polynomials, Bull. Austral Math. Soc. 52 (1995), 475-486.
  14. Numerical radius of a holomorphic mapping, Geometric Complex Analysis (ed. J.Noguchi et al) 1996, World Scientific Pub. Co., 117-122.
  15. Norm or numerical radius attaining multilinear mappings and polynomials, J. London Math. Soc.(2) 54 (1996), 135-147.
  16. Some results on norm attaining bilinear forms on \boldsymbol{L_1 [0,1]}, Extract Math. 11, 2 (1996), 381-383.
  17. Norm attaining bilinear forms on \boldsymbol{L_1 [0,1]}, J. Math. Anal. Appl. 211 (1997), 295-300.
  18. Norm attaining bilinear forms on spaces of continuous functions, Glasgow Math. J. 40 (1998), 359-365.
  19. The unit ball of \boldsymbol{P(^2 \ell_2^2)}, Archiv der Math. 71 (1998), 472-480.
  20. Extreme polynomials and multilinear forms on \boldsymbol{\ell_1}, J. Math. Anal. Appl. 228 (1998), 467-482.
  21. Extreme polynomials on \boldsymbol{c_0}, Indian J. Pure Appl. Math. 29, 10 (1998), 983-989.
  22. The λ-function in the space \boldsymbol{P(^2 \ell_2^2)}, J. Inequality Appl. 3 (1999), 303-311.
  23. Smooth points of the unit ball of the space \boldsymbol{P(^2 \ell_2^2)}, Results in Mathematics 36 (1999), 26-33.
  24. Estimates for absolutely summing norms of polynomials and multilinear maps, Quarterly J. Math. 52 (2001), 1-12.
  25. Local properties of polynomials on a Banach spaces, Illinois J. Math. 45, 1 (2001), 25-39.
  26. Unique Hahn-Banach theorems for the spaces of homogeneous polynomials, J. Austral. Math. Soc. 70 (2001), 387-400.
  27. Norm or numerical radius attaining polynomials on \boldsymbol{C(K)}, J. Math. Anal. Appl. 295 (2004), 80-96.
  28. Exposed points of the unit ball of \boldsymbol{P(^2 \ell_p^2) (p = 1, 2, \infty)}, Indian J. Pure Appl. Math. 35 (1) (2004), 37-41.
  29. Extensions of polynomials on preduals on Lorentz sequence spaces, Glasgow Math. J. 47 (2005), 395-403.
  30. Boundaries for algebras of holomorphic functions on Marcinkiewicz sequence spaces, J. Math. Anal. Appl. 323 (2006), 1116-1133.
  31. The polynomial numerical index of a Banach space, Proc. Edinburgh Math. Soc. 49 (2006), 39-52.
  32. The Daugavet equations for polynomials, Studia Math. 178 (1) (2007), 63-82.
  33. Boundaries for Algebras of Holomorphic Functions on Banach Spaces, Illinois J. Math. 51 (3) (2007), 883-896.
  34. Property quasi-alpha and the denseness of norm attaining mappings, Math. Nachrichten, 281 (9) (2008), 1-9.
  35. Composition, numerical range and Aron-Berner extension, Math. Scandinavia 103 (2008), 97-110.
  36. The polynomial numerical index for some complex vector-valued function spaces, Quarterly J. Math. 59 (2008), 455-474.
  37. The Bishop-Phelps-Bollob ́as theorem fails for bilinear forms on \boldsymbol{\ell_1 \times \ell_1}, J. Math. Anal. Appl. 360 (2009), 752-753.
  38. Denseness of norm-attaining mappings on Banach spaces, Publ. RIMS 46 (2010), 171-182.
  39. The dual space of \boldsymbol{(\mathcal{L}(X,Y), \tau_p)} and the p-approximation property, J. Funct. Anal. 259 (2010), 2437-2454.
  40. Bishop’s theorem and differentiability of a subspace of \boldsymbol{C_b(K)}, Israel J. Math. 180 (2010), 93-118.
  41. The Bishop-Phelps-Bollab ́as theorem for operators from \boldsymbol{L_1 (\mu)} to Banach spaces with the Radon-Nikodým property, J. Funct. Anal. 261 (2011), 1446-1456.
  42. The Bishop-Phelps-Bollab ́as theorem for \boldsymbol{\mathcal{L}(L_1 (\mu), L_infty [0,1])}, Advances in Math. 228 (2011), 617-628.
  43. The Bishop-Phelps-Bollob ́as property and lush spaces, J. Math. Anal. Appl. 390 (2012), 549-555.
  44. Extensions of smooth mappings into biduals and weak continuity, Advances in Math. 234 (2013), 453-487.
  45. The Bishop-Phelps-Bollobás property for operators between spaces of continuous functions, Nonlinear Analysis 95 (2014), 323-332
  46. Some geometrical properties of disk algebras, J. Math. Anal. Appl. 409(1) (2014), 147-157.
  47. The Bishop-Phelps-Bollobás property for bilinear forms and polynomials, J. Math. Soc. Japan, 66(3) (2014), 957-979.
  48. The Bishop-Phelps-Bollobás theorem for operators on \boldsymbol{L_1 (\mu)}, J, Funct. Anal. 267(1) (2014), 214-242.
  49. The Bishop-Phelps-Bollobás version of Lindenstrauss properties A and B, Transactions AMS 367(9) (2015), 6085-6101.
  50. On Banach spaces with The approximate hyperplane series property, Banach J. Math. Anal. 9(4), 2015, 243-258.
  51. The Bishop-Phelps-Bollobás theorem on bounded closed convex sets, J. London Math. Soc. 93(2) (2016), 502-518.
  52. Norming points and critical points, J. Math. Anal. Appl. 445 (2017), 1284-1290.
  53. Banach spaces of general Dirichlet series, J. Math. Anal. Appl. 465 (2018), 839-856.
  54. The Bishop-Phelps-Bollobás property and absolute sums. Mediterr. J. Math. 16 (3) (2019), Available Online.
  55. Emerging notions of norm attainment for Lipschitz maps between Banach spaces. J. Math. Anal. Appl. 483 (1) (2020), Available Online.
  56. Analytic structure in fibers of \boldsymbol{H^\infty (B_{c_0})}. J. Math. Anal. Appl. 488 (2) (2020), Available Online.