Khabibullin's conjecture is a conjecture in mathematics related to Paley's problem for plurisubharmonic functions and to various extremal problems in the theory of entire functions of several variables. The conjecture was named after its proposer, B. N. Khabibullin.
There are three versions of the conjecture, one in terms of logarithmically convex functions, one in terms of increasing functions, and one in terms of non-negative functions. The conjecture has implications in the study of complex functions and is related to Euler's Beta function. While the conjecture is known to hold for certain conditions, counterexamples have also been found.
Khabibullin's conjecture (version 1, 1992). Let be a non-negative increasing function on the half-line such that . Assume that is a convex function of . Let , , and . If
then
This statement of the Khabibullin's conjecture completes his survey.
The product in the right hand side of the inequality () is related to the Euler's Beta function :
For each fixed the function
turns the inequalities () and () to equalities.
The Khabibullin's conjecture is valid for without the assumption of convexity of . Meanwhile, one can show that this conjecture is not valid without some convexity conditions for . In 2010, R. A. Sharipov showed that the conjecture fails in the case and for .
Khabibullin's conjecture (version 2). Let be a non-negative increasing function on the half-line and . If
then
Khabibullin's conjecture (version 3). Let be a non-negative continuous function on the half-line and . If
then