Geometric combinatorics

5. Friendly paths for finite subsets of plane integer lattice. I. The full solution of American Mathematical Monthly Problem 11484 (b)*. Two associated sequences A369382 and sequences A367783.
4. Full grid lattice polygons with maximal sum of squares of edge-lengths (with. O. M. Ališauskas and V. Dičiūnas). An associated sequence A358212.
3. Colouring monohedral tilings: defects and grain boundaries.
2. Maximal subsets of n x n board without cycles. An associated sequence A354673.



Problems planned for 2024-2029



5. Paper on sequence A360796 here.
4. Paper on sequences A360427 and A360619 here.
3. Three integer points in the plane and consecutive construction of squares.
2. On convex planar figures whose all integer shifts can make a full turn.
1. Unuiquely colourable domino tilings.

The Minkowski question mark function, and topics related to continued fractions, modular world

11. Transfer operator for the Gauss' continued fraction map. I. Structure of the eigenvalues and trace formulas. The newest version. The talk on this topic given in February, 2015.
10. The modular group and words in its two generators, Lith. Math. J. 57 (1) (2017), 1-12; Official LINK. An associated sequence A265434.
9. The Minkowski ?(x), a class of singular measures, quasi-modular and mean-modular forms. I. The newest version. "The Minkowski question mark function, quasi-modular forms and the Dedekind eta-function", the talk on this topic given in March, 2017.
8. The map from the set of nontrivial zeros of the Riemann zeta function to the set of eigenvalues of the Gauss-Kuzmin-Wirsing operator.
7. Fourier-Stieltjes coefficients of the Minkowski question mark function, Anal. Probab. Methods Number Theory, Proceedings of the Fifth Intern. Conf. in Honour of J. Kubilius, Palanga, Lithuania, 4-10 September 2011 (2012), 19-33.
6. The Minkowski ?(x) function and Salem's problem, Comptes Rendus Mathématique 350 (3-4) (2012), 137-140.
5. Semi-regular continued fractions and an exact formula for the moments of the Minkowski question mark function, Ramanujan J. 25 (3) (2011), 359-367; Official LINK.
4. The Minkowski question mark function: explicit series for the dyadic period function and moments, Math. Comp. 79 (269) (2010), 383-418; Addenda and corrigenda, Math. Comp. 80 (276) (2011), 2445-2454.
3. The moments of Minkowski question mark function: the dyadic period function, Glasg. Math. J. 52 (1) (2010), 41-64.
2. Generating and zeta functions, structure, spectral and analytic properties of the moments of the Minkowski question mark function, Involve 2 (2) (2009), 121-159.
1. An asymptotic formula for the moments of Minkowski question mark function in the interval [0,1], Lith. Math. J. 48 (4) (2008), 357-367; Official LINK.

Projective and general flows: relations to topology, algebraic geometry, differential geometry, differential equations and mathematical physics

11. Projective and polynomial superflows. I. Latest version is here (110 pages).
10. Projective and polynomial superflows. II. O(3) and the icosahedral group.
9. Projective and polynomial superflows. III. Finite subgroups of U(2).
8. Beltrami vector fields with polyhedral symmetries.
7. Beltrami vector fields with an icosahedral symmetry, Journal of Geometry and Physics. Article 103655, July (153) (2020), 14 p.; Official LINK.
6. Planar 2-homogeneous commutative rational vector fields, Electron. J. Differential Equations. Vol. 2018 (2018), No. 138, pp. 1-21; Official LINK.
5. The projective translation equation and rational plane flows. II. Corrections and additions, Aequationes Math. 91 (5) (2017), 871-907; Official LINK.
4. Algebraic and abelian solutions to the projective translation equation, Aequationes Math. 90 (4) (2016), 727-763; Official LINK.
3. The projective translation equation and unramified 2-dimensional flows with rational vector fields, Aequationes Math. 89 (3) (2015), 873-913; Official LINK.
2. The projective translation equation and rational plane flows. I, Aequationes Math. 85 (3) (2013), 273-328; Official LINK.
1. Multi-variable translation equation which arises from homothety, Aequationes Math. 80 (3) (2010), 335-350; Official LINK.

Other: number theory, partitions

8. m-nariniai skaidiniai, (1999). Course-work. This paper, written in Lithuanian, contains new proof of a known theorem, and some new results. In particular, it gives the first ever characterization of m-ary partitons modulo m, which was rediscovered 16 years later in the paper in American Mathematical Monthly. See the web-page of Doron Zeilberger.
7. Algebraic functions with Fermat property, eigenvalues of transfer operator and Riemann zeros, and other open problems.
6. Congruence properties of the function that counts compositions into powers of 2, J. Integer Seq. 13 (2010), Article: 10.5.3, 9 p.
5. A curious proof of Fermat's little theorem, Amer. Math. Monthly 116 (4) (2009), 362-364; Official LINK. An associated sequence A220420.
4. Functional equation related to quadratic and norm forms, Lith. Math. J. 45 (2) (2005), 153-172; Official LINK.
3. Prime and composite numbers as integer parts of powers (with A. Dubickas), Acta Math. Hungar. 105 (3) (2004), 249-256; Official LINK.
2. Dirichlet series associated with strongly q-multiplicative functions, Ramanujan J. 8 (1) (2004), 13-21. Official LINK.
3. Generalization of the Rödseth-Gupta theorem on binary partitions, Lith. Math. J. 43 (2) (2003), 123-132; Official LINK.

Ph.D. thesis: "Integral transforms of the Minkowski question mark function" (2008).

1. Author of IMO 6, 1997, "American Mathematical Monthly" problems 11484, 11661, co-author of IMO 3, 2008.
2. The moments of the Minkowski question mark function, Minkowski-Alkauskas constants by Steven R. Finch, and here.
3. Friendly paths (solution of the problem 11484) Amer. Math. Monthly 119 (2) (2012), 167-168. (The official solution contains few typos: b-a-1 and b-a+2 should be replaced by b-a and b-a+1 in the displayed inequality); Official LINK.
4. Recursive construction of a series converging to the eigenvalues of the Gauss-Kuzmin-Wirsing operator, (2010). This paper is not for publication since it was superseded by this paper.
5. Dirichlet series associated with Thue-Morse sequence; Vilnius University, Department of Mathematics, preprint (2001). This contains the explicit construction of the function F(x) which satisfies F'(x)=4F(2x). This very function, called Fabius function, was independently rediscovered by many researchers.
6. Exact lower bound for the house of algebraic integer with abelian Galois group (2003). The result of the note is a rediscovery of the old result of A. Schinzel.
   
7. Splitting of primes in Q(⁵v2) , tutorial (2004); inspired by the excellent introduction to algebraic number theory by H. Stark.
8. A question from complex dynamics (2008).
9. Solutions of IMO 2005.
10. Prime numbers in arithmetic progressions, Alfa+Omega 2 (4), 4 pages, (1997).
11. The germs of important mathematical results in pupil olympiads, Alfa+Omega 2 (4), 5 pages, (1997).
12. Inequalities, Alfa+Omega 1 (5), 6 pages, 1998.
13. Functional equations in pupil olympiads, Alfa+Omega 1 (7), 14 pages, (1999).
14. Commutative polynomials, Alfa+Omega 1 (7), 4 pages, (2001).
15. Several brochures (with co-authors) on Lithuanian Mathematical Olympiads, 1996-2000.