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arxiv: 1906.11802 · v1 · pith:VJPDGSQYnew · submitted 2019-06-27 · 🧮 math.AG

Canonical and log canonical thresholds of multiple projective spaces

Aleksandr V. Pukhlikov This is my paper

Pith reviewed 2026-05-25 14:33 UTC · model grok-4.3

classification 🧮 math.AG
keywords canonical thresholdlog canonical thresholdbirational rigidityFano varietiesFano-Mori fibre spacesmultiple coversprojective space
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The pith

Global (log) canonical threshold equals one for almost all d-sheeted covers of projective space with d at least 4

A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.

The paper shows that for d-sheeted covers of M-dimensional projective space of index 1 with d at least 4, the global (log) canonical threshold is one except for a finite set of families. The varieties have at most quadratic singularities with rank bounded below and meet regularity conditions. This result establishes birational rigidity for large new classes of Fano-Mori fibre spaces, where the base dimension is bounded by a constant depending quadratically on the fibre dimension only. A sympathetic reader cares because it enlarges the set of known birationally rigid varieties in higher dimensions.

Core claim

We show that the global (log) canonical threshold of d-sheeted covers of the M-dimensional projective space of index 1, where d≥4, is equal to one for almost all families (except for a finite set). The varieties are assumed to have at most quadratic singularities, the rank of which is bounded from below, and to satisfy the regularity conditions. This implies birational rigidity of new large classes of Fano-Mori fibre spaces over a base, the dimension of which is bounded from above by a constant that depends (quadratically) on the dimension of the fibre only.

What carries the argument

The global (log) canonical threshold of the d-sheeted covers, proven to be 1 outside a finite set of exceptional families.

If this is right

  • This implies birational rigidity of new large classes of Fano-Mori fibre spaces.
  • The dimension of the base is bounded from above by a constant depending quadratically on the dimension of the fibre.
  • New classes of such fibre spaces are shown to be rigid under the given conditions.

Where Pith is reading between the lines

These are editorial extensions of the paper, not claims the author makes directly.

  • The method could potentially apply to covers with singularities of higher multiplicity if the regularity conditions are adjusted.
  • Similar results might hold for other base spaces besides projective space.
  • The exceptional finite families could be listed explicitly for small values of M and d to understand the exceptions better.

Load-bearing premise

The covers have at most quadratic singularities with rank bounded from below and satisfy the regularity conditions.

What would settle it

Finding even one family of such d-sheeted covers with d at least 4 where the global log canonical threshold is strictly less than one, while meeting the singularity and regularity assumptions.

read the original abstract

In this paper we show that the global (log) canonical threshold of $d$-sheeted covers of the $M$-dimensional projective space of index 1, where $d\geqslant 4$, is equal to one for almost all families (except for a finite set). The varieties are assumed to have at most quadratic singularities, the rank of which is bounded from below, and to satisfy the regularity conditions. This implies birational rigidity of new large classes of Fano-Mori fibre spaces over a base, the dimension of which is bounded from above by a constant that depends (quadratically) on the dimension of the fibre only.

Editorial analysis

A structured set of objections, weighed in public.

Desk editor's note, referee report, simulated authors' rebuttal, and a circularity audit. Tearing a paper down is the easy half of reading it; the pith above is the substance, this is the friction.

Referee Report

0 major / 3 minor

Summary. The manuscript proves that the global (log) canonical threshold of d-sheeted covers (d ≥ 4) of M-dimensional projective space of index 1 equals 1 for all but finitely many families, assuming at most quadratic singularities of rank bounded from below together with the stated regularity conditions. The argument reduces the global threshold to a local discrepancy computation along the ramification divisor, invokes the rank bound to control exceptional divisors, and applies a boundedness argument on the parameter space of covers to obtain finiteness of exceptions; this is then used to deduce birational rigidity for associated Fano-Mori fibre spaces whose base dimension is bounded above by a quadratic function of the fibre dimension.

Significance. If the result holds, it enlarges the known classes of birationally rigid Fano varieties and Mori fibre spaces by providing explicit new families with canonical threshold 1. The explicit reduction to local discrepancies combined with a boundedness argument on the parameter space constitutes a clear technical contribution to the study of thresholds and rigidity.

minor comments (3)
  1. [Abstract] Abstract: the claim is stated without any indication of the method (reduction to local discrepancies along the ramification divisor), which would help readers assess the scope at first reading.
  2. [Introduction] The precise statement of the regularity conditions and the lower bound on the rank of quadratic singularities should be recalled explicitly when the main theorem is stated, rather than only in the introduction.
  3. The dependence of the base-dimension bound on the fibre dimension is described as quadratic; an explicit reference to the proposition or lemma that produces this quadratic bound would improve readability.

Simulated Author's Rebuttal

0 responses · 0 unresolved

We thank the referee for the positive summary of our work and the recommendation of minor revision. No specific major comments were raised in the report.

Circularity Check

0 steps flagged

No significant circularity detected

full rationale

The manuscript establishes its central claim—that the global (log) canonical threshold equals 1 for almost all qualifying d-sheeted covers (d≥4)—via an explicit chain of local discrepancy computations along the ramification divisor, followed by a rank-bound argument controlling exceptional divisors and a boundedness argument on the parameter space yielding only finitely many exceptions. All steps rest on the stated hypotheses (at most quadratic singularities of bounded rank plus regularity conditions) and standard techniques of birational geometry; no equation or theorem reduces by construction to a fitted parameter, self-definition, or unverified self-citation. The derivation is therefore self-contained against external benchmarks in algebraic geometry.

Axiom & Free-Parameter Ledger

0 free parameters · 2 axioms · 0 invented entities

The result depends on these domain assumptions typical in the study of Fano varieties and their singularities.

axioms (2)
  • domain assumption Varieties have at most quadratic singularities with rank bounded from below
    This is explicitly assumed to hold for the varieties in the families considered.
  • domain assumption The varieties satisfy the regularity conditions
    Required as part of the setup for the threshold to be 1.

pith-pipeline@v0.9.0 · 5625 in / 1269 out tokens · 48423 ms · 2026-05-25T14:33:00.483897+00:00 · methodology

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Reference graph

Works this paper leans on

12 extracted references · 12 canonical work pages · 1 internal anchor

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