ON THE WEIGHTED NUMBER OF INTEGER POINTS ON SOME MULTIDIMENSIONAL HYPERBOLOIDS

In this paper asymptotic formula for weighted number of integer points on multidimensional hyperbolic surfaces defined by direct sum of indefinite quaternary integral quadratic forms of singular kind is obtained. In doing so weighted function is chosen as a real exponent on the index of which there stands integral quadratic form being direct sum of positive binary quadratic forms with the same discriminant equal to the discriminant δF of imaginary quadratic field F = Θ (√ d ) where d is the negative without quadrate number. The choice of real kind of weighting function is conditioned by possibility application used method in investigation of question about the number of integer points lying is some fields of real kind on examining multidimensional hyperboloids. Leaning upon the method of article [7] based on the use of exact meanings of Gauss double sum we examine multidimensional problem about weighted number of integer points on hyperbolic surface of real kind. The question is about the asymptotic with remainder of series for value Ih (n, s) = ∑ p(x,y,z,t)=h e − ω(x,y,z,t) n , where n → ∞ — real parameter, p ( x, y, z,t ) = ∑s i=1 { Q (1) i (xi , yi) − Q (2) i (zi , ti) } , ω ( x, y, z,t ) = ∑s i=1 { Q (1) i (xi , yi) + Q (2) i (zi , ti) } , Q (1) i , Q(2) i — positive integral binary quadratic forms of the same discriminant δF ; h ̸= 0 — integral number. In deducing the asymptotic formula for Ih (n, s) essentially we use: 1) the formula of turning of theta-series binary quadratic form (in our case it is enough to use double theta-series instead of multidimensional); 2) formula for 1 q( ∫q+N) − 1 q(q+N) e −2πihx ( 1 n2 + 4π 2x 2 )S dx 3) estimation of sum of Kloosterman K (u, v; q) = ∑ x mod q ′ e 2πi q ( ux+vx ′ ) , where xx ′ ≡ 1 (mod q). Obtained asymptotic formula for Ih (n, s) generalises one of the results of Kurtova L. N. [7] about weighted number of integer points on four-dimensional hyperboloids for the case of multidimensional hyperboloids corresponding real kind. Besides our result in case of constant coefficients of hyperboloid equation also generalized one result of Malishev A. B. [10] for a case of some nondiagonal quadratic forms in comparison with the result of Golovizina V. V. [3] the main number in examining problem is obtained in evident kind as in our work exact meanings of Gauss double sums are used and in [3] it is expressed by way of some complex integral W(N), for which only estimation is given over in doing so in our case N = [√ n]. Later on the result about value Ih (n, s) can be applied in obtaining asymptotic formulae for the number of integer points lying in some fields of real kind on multidimensional hyperboloids.

1. Borevich, Z. I., Shafarevich, I. R. 1985, "Teoriya chisel" , [The theory of numbers] 3rd edition, Nauka, Moscow, 503 pp. (Russian)

2. Vinogradov, I. M. 1981, "Osnovy teorii chisel" , [Baics of the theory of numbers] 9th edition, Nauka, Moscow. (Russian)

3. Golovizin, V. V. 1981, "On the distribution of integer points on hyperbolic surfaces of the second order" , Zap. Nauchn. Sem. LOMI, vol. 106, pp. 52–69. (Russian)

4. Gritsenko, S. A. 2003, "On functional equation for one Dirichlet ariphmetic series" , Chebyshevskii Sb., vol. 4, no. 2(6), pp. 55–67. (Russian)

5. Cassels, J. 1982, "Racional’nye kvadratichnye formy" , [Rational quadratic forms], Mir, Moscow, 436 pp. (Russian)

6. Karatsuba, A. A. 1983, "Osnovy analiticheskoi teorii chisel" , [Principles of analytic number theory], Nauka, Moscow, 240 pp. (Russian)

7. Kurtova L. N. 2007, "On one binary additive problem with quadratic forms" , Vestn. Samarsk. Gos. Univ. Est.-Nauchn. Ser. Mat., no. 7(57), pp. 107–121. (Russian)

8. Malyshev, A. V. 1962, "On the representation of integers by positive quadratic forms" , Trudy Mat. Inst. Steklov., vol. 65, 212 p. (Russian)

9. Malyshev, A. V. 1964, "On the representation of integers by quadratic forms" , Proc. 4th All-Union Mat. Congr., vol. 2, pp. 118–124. (Russian)

10. Malyshev, A. V. 1966, "On the weighted number of integer points on a quadric" , Zap. Nauchn. Sem. LOMI, vol. 1, pp. 6–83. (Russian)

11. Pachev, U. M., Dokhov, R. A., 2013, "On Gauss doble sums corresponding to classes of ideals of imaginary quadratic field" , Nauchn. Ved. Bel. Gos. Univ., vol. 19(162), no. 32, pp. 108–119. (Russian)

12. Sveshnikov, S. A., Tikhonov, A. N. 1967, "Teorija funkcij kompleksnoj peremennoj" , [The theory of functions of complex variable], Nauka, Moscow, 304 pp. (Russian)

13. Dolciani, M. P. 1947, "On the representation of integers by quadratic forms" , Thesis Ithaca, New York, pp. 1–56.

14. Ogg, A. P. 1969, Modular Forms and Dirichlet Series. New York, W.A. Benjamin Inc., 211 p.

15. Hardy, G. H., Wrigth, E. M. 1938, An introduction to theory of numbers, Oxford, 421 p.

16. Siegel, C. L. 1941, "Equivalence of quadratic forms" , Amer. I. Math., vol. 63, pp. 658–680.