For each integer ℓ ≥ 1, we prove an unconditional upper bound on the size of the ℓ-torsion subgroup of the class group, which holds for all but a zero-density set of field extensions of Q of degree d, for any fixed d ∈ {2, 3, 4, 5} (with the additional restriction in the case d = 4 that the field be non-D 4 ). For sufficiently large ℓ (specified explicitly), these results are as strong as a previously known bound that is conditional on GRH. As part of our argument, we develop a probabilistic "Chebyshev sieve," and give uniform, power-saving error terms for the asymptotics of quartic (non-D 4 ) and quintic fields with chosen splitting types at a finite set of primes.for every ε > 0. (Throughout, ε > 0 is allowed to be arbitrarily small (possibly taking a different value in different occurrences), and A ≪ B indicates that |A| ≤ cB for an implied constant c, which we allow in any instance to depend on ℓ, d, ε.)It is conjectured thatfor every ε > 0, but improving on the trivial bound (1.1) has proved difficult. (Impetus for this conjecture may be found in Duke [Duk98], Zhang [Zha05, page 10], and Brumer and Silverman [BS96, "Question CL(ℓ, d)"].) For K quadratic, Gauss's genus theory [Gau01] implies (1.2) in the case ℓ = 2. Recently, [BST + 17] obtained nontrivial upper bounds for 2-torsion in fields of degree d for all d ≥ 3, proving |Cl K [2]| ≪ D 0.2784...+ε K for d = 3, 4 and |Cl K [2]| ≪ D 1/2−1/2d+ε K for d ≥ 5. For ℓ = 3, after initial incremental improvement in [HV06], [Pie05], [Pie06] over the trivial bound (1.1) for quadratic fields, Ellenberg and Venkatesh proved [EV07, Prop. 3.4, Cor. 3.7] that (1.3) |Cl K [3]| ≪ D 1/3+ε K 2010 Mathematics Subject Classification. 11R29, 11N36 11R45 .
