Thue proved that all Diophantine equations consisting of an irreducible binary form (cubic or higher) equal to a constant, i.e., $$c_nx^n+c_{n-1}x^{n-1}y+\cdots+c_oy^n=k$$ ($n,k$ fixed) have finitely many solutions. What is known about equations that are ternary rather than binary forms? I.e., $$c_{n,0}x^n+c_{n-1,1}x^{n-1}y+c_{n-1,0}x^{n-1}z+c_{n-2,1}x^{n-2}yz+\cdots+c_{0,0}z^n=k$$ with $n,k$ fixed.
2026-04-26 06:11:49.1777183909
Diophantine equations: ternary forms
836 Views Asked by user899 https://math.techqa.club/user/user899/detail At
2
Here are a few papers about ternary forms of degree at least 3:
MR0006740 (4,34c) Mahler, Kurt Remarks on ternary Diophantine equations. Amer. Math. Monthly 49, (1942). 372–378.
MR0025489 (10,14c) Huff, Gerald B. Diophantine problems in geometry and elliptic ternary forms. Duke Math. J. 15, (1948). 443–453. [Note: this paper studies $ax(y^2-z^2)=by(x^2-z^2)$]
MR0062767 (16,14g) Selmer, Ernst S. A conjecture concerning rational points on cubic curves. Math. Scand. 2, (1954). 49–54.
MR0167460 (29 #4733) Oppenheim, A. The rational integral solution of the equation $a(x^3+y^3)=b(u^3+v^3)$ and allied Diophantine equations. Acta Arith. 9 1964 221–226.
MR0376520 (51 #12695) Dofs, Erik On some classes of homogeneous ternary cubic Diophantine equations. Ark. Mat. 13 (1975), 29–72. [Note: this paper studies $ax^3+by^3+cz^3=dxyz$]
MR1704332 (2000h:11033) Bayadilov, E. E. On the divisor problem for values of a ternary cubic form. (Russian) Vestnik Moskov. Univ. Ser. I Mat. Mekh. 1999, no. 1, 58--60; translation in Moscow Univ. Math. Bull. 54 (1999), no. 1, 43–45
MR2095257 (2005i:11037) Choudhry, Ajai Symmetric Diophantine equations. (English summary) Rocky Mountain J. Math. 34 (2004), no. 4, 1281–1298.
There is also work on $\it pairs$ of ternary forms, where degree $2$ is already interesting:
MR1378574 (96m:11026) Gaál, István(H-LAJO-IM); Pethő, Attila; Pohst, Michael(D-TUB-3) Simultaneous representation of integers by a pair of ternary quadratic forms—with an application to index form equations in quartic number fields. (English summary) J. Number Theory 57 (1996), no. 1, 90–104.