Multi-target hyperbolic sieves and elliptic trace obstructions

Abstract

Let N=pq be a semiprime and let Na be an odd prime. The hyperbolic sieve set Ha(N;)=\ax+Nx-1:x∈ F*\ contains the residue of the linear form ap+q modulo and has exact cardinality (+χ(aN))/2, where χ is the Legendre symbol modulo . We study simultaneous sieving for several linear forms and give a complete local analysis of the two-target primitive-root case proposed in connection with deterministic integer factorization. For two distinct coefficients a,b, with A=4aN and B=4bN, we prove an exact formula for |Ha(N;) Hb(N;)| in terms of the degree-four character sum \[ K(A,B)=Σz∈ Fχ((z2-A)(z2-B)).\] For a smooth projective genus-one curve E/F, we write tE=+1-\#E(F) for its Frobenius trace. With this convention, K(A,B) is the Frobenius trace, up to sign and an additive constant, of the genus-one curve Y2=(X2-A)(X2-B). Hence Hasse--Weil gives a uniform O() error from the main term 3/4, and negative traces explain the counterexamples to the pointwise bound 3/4+1. We also prove a multi-target estimate \[||j=1k Haj(N;)|-(1-2-k)| (k-1+2-k)+k\] for distinct coefficients a1,…,ak, together with the corresponding CRT product bound. Finally, for special-shape inputs N=urv, we study the r-power-constrained image Ha,r(N;) and determine its exact size by an elementary involution argument. These results recast the proposed local sieve questions as explicit finite-field statements with verified local tests.