Gap probabilities in the bulk of the Airy process

@article{Blackstone2020GapPI,
  title={Gap probabilities in the bulk of the Airy process},
  author={Elliot Blackstone and Christophe Charlier and Jonatan Lenells},
  journal={Random Matrices: Theory and Applications},
  year={2020}
}
We consider the probability that no points lie on [Formula: see text] large intervals in the bulk of the Airy point process. We make a conjecture for all the terms in the asymptotics up to and including the oscillations of order [Formula: see text], and we prove this conjecture for [Formula: see text]. 
View PDF on arXiv
3 Citations

Figures from this paper

3 Citations

Large gap asymptotics on annuli in the random normal matrix model

It is proved that the probability that no points lie on any number of annuli centered at 0 satisfies large n asymptotics of the form exp, where n is the number of points of the process.

Disk counting statistics near hard edges of random normal matrices: the multi-component regime

The “hard edge regime” where all disk boundaries are a distance of order 1 n away from the hard wall, where n is the number of points and the asymptotics of the moment generating function are of the form exp.

The two-dimensional Coulomb gas: fluctuations through a spectral gap

. We study a class of radially symmetric Coulomb gas ensembles at inverse temperature β = 2, for which the droplet consists of a number of concentric annuli, having at least one bounded “gap” G ,

References

SHOWING 1-10 OF 30 REFERENCES

Large deviation bounds for the Airy point process

In this paper, we establish large deviation bounds for the Airy point process. The proof is based on approximation of the Airy point process using Gaussian unitary ensemble (GUE), together with

Airy-kernel determinant on two large intervals

We find the probability of two gaps of the form (sc, sb) ∪ (sa,+∞), c < b < a < 0, for large s > 0, in the edge scaling limit of the Gaussian Unitary Ensemble of random matrices, including the

The Arctic circle boundary and the airy process

We prove that the, appropriately rescaled, boundary of the north polar region in the Aztec diamond converges to the Airy process. The proof uses certain determinantal point processes given by the

Asymptotics of the Airy-Kernel Determinant

The authors use Riemann-Hilbert methods to compute the constant that arises in the asymptotic behavior of the Airy-kernel determinant of random matrix theory.

Rigidity of determinantal point processes with the Airy, the Bessel and the Gamma kernel

A point process is said to be rigid if for any bounded domain in the phase space, the number of particles in the domain is almost surely determined by the restriction of the configuration to the

The Generating Function for the Airy Point Process and a System of Coupled Painlevé II Equations

For a wide class of Hermitian random matrices, the limit distribution of the eigenvalues close to the largest one is governed by the Airy point process. In such ensembles, the limit distribution of

Lower tail of the KPZ equation

We provide the first tight bounds on the lower tail probability of the one point distribution of the KPZ equation with narrow wedge initial data. Our bounds hold for all sufficiently large times $T$

Asymptotics for the Fredholm determinant of the sine kernel on a union of intervals

AbstractIn the bulk scaling limit of the Gaussian Unitary Ensemble of hermitian matrices the probability that an interval of lengths contains no eigenvalues is the Fredholm determinant of the sine

Edge Universality of Beta Ensembles

We prove the edge universality of the beta ensembles for any $${\beta \ge 1}$$β≥1, provided that the limiting spectrum is supported on a single interval, and the external potential is

Universality at the edge of the spectrum for unitary, orthogonal, and symplectic ensembles of random matrices

We prove universality at the edge of the spectrum for unitary (β = 2), orthogonal (β = 1), and symplectic (β = 4) ensembles of random matrices in the scaling limit for a class of weights w(x) =