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Hermite process distributions are shown to admit densities

Economics, Econometrics and Finance research
Photo by ivoxis on Pixabay · Pixabay License
Research area:MathematicsAbsolute continuityStochastic process

What the study found

Finite-dimensional distributions of Hermite processes of order q ge 1 with self-similarity parameter H in (1/2, 1) are shown to admit a density with respect to Lebesgue measure. This result is stated for any distinct times t_1, …, t_n.

Why the authors say this matters

The authors note that the Gaussian case q = 1, corresponding to fractional Brownian motion, is already well understood, while the non-Gaussian case had not yet been settled. They conclude that their main methodological contribution could extend to other non-Gaussian models.

What the researchers tested

The researchers studied the existence of densities for finite-dimensional distributions of Hermite processes. They extended a three-step approach from the Gaussian setting: factorization of a determinant into conditional terms, strong local nondeterminism, and non-degeneracy, and they used Malliavin calculus together with the Bouleau-Hirsch criterion.

What worked and what didn't

They established a determinant identity for the Malliavin matrix and proved strong local nondeterminism at the level of Malliavin derivatives. Using these ingredients, they obtained the density result for vectors ((Z^{H,q}_{t_1}, …, Z^{H,q}_{t_n})) at distinct times. The abstract does not report any failed test or negative result.

What to keep in mind

The abstract does not describe limitations beyond the stated parameter range and the requirement that the times be distinct. It also does not provide details about the proof outside the methods named in the abstract.

Key points

  • Finite-dimensional distributions of Hermite processes are shown to have densities.
  • The result applies to order q ge 1 and self-similarity parameter H in (1/2, 1).
  • The paper uses Malliavin calculus and the Bouleau-Hirsch criterion.
  • A determinant identity and strong local nondeterminism at the level of Malliavin derivatives are established.
  • The authors say the methodology could extend to other non-Gaussian models.

Disclosure

Research title:
Hermite process distributions are shown to admit densities
Authors:
Laurent Loosveldt, Yassine Nachit, Ivan Nourdin, Ciprian A. Tudor
Publication date:
2026-04-20
DOI:
10.1090/proc/17762
OpenAlex record:
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Image credit:
Photo by ivoxis on Pixabay · Pixabay License
AI provenance: This post was generated by OpenAI. The original authors did not write or review this post.

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