Invariant Gibbs measures for the three-dimensional wave equation with a Hartree nonlinearity I: measures

Abstract: In this two-paper series, we prove the invariance of the Gibbs measure for a three-dimensional wave equation with a Hartree nonlinearity. The main novelty is the singularity of the Gibbs measure with respect to the Gaussian free field. The singularity has several consequences in both measure-theoretic and dynamical aspects of our argument. In this paper, we construct and study the Gibbs measure. Our approach is based on earlier work of Barashkov and Gubinelli for the $$\Phi ^4_3$$ … Show more

“…As in case of the Φ 4 3 -measure in [3], we can prove uniform exponential integrability of the truncated density e −R N (u) in L p (µ) only for p = 1 due to the second renormalization introduced in (1.24). See also [51,12] for a similar phenomenon in the case of the defocusing Hartree Φ 4 3 -measure. We point out that the renormalized potential energy R N (u) in (1.24) does not converge to any limit and neither does the density e −R N (u) , which is essentially the source of the singularity of the Φ 3 3 -measure with respect to the massive Gaussian free field µ.…”

“…For this reason, he describes his new globalization argument as "the probabilistic version of a deterministic global theory using almost conservation laws". We also point out that Bringmann's analysis relies on the fact that the (truncated) Gibbs measure is absolutely continuous with respect to a shifted measure [51,12] (as in Appendix A below).…”

“…As a result, Bourgain's invariant measure argument [8,10] is not directly applicable to our problem. In [13], Bringmann encountered a similar problem in the context of the defocusing Hartree NLW on T 3 , where he overcame this issue by introducing a new globalization argument, by using the fact that the (truncated) Gibbs measure is absolutely continuous with respect to a shifted measure (as in Appendix A below) [51,12] in a uniform manner and establishing a (rather involved) large time stability theory, where sets of large probabilities are characterized via the shifted measures.…”

“…modification of the proof of Theorem 1.14 yields uniform (in N ) local well-posedness of the truncated equation (1.38) (with the same limiting process (u, ∂ t u) as in Theorem 1.14) for the initial data of the form(1.37). By exploiting (formal) invariance of the truncated Gibbs measure ρ N in (1.31),12 we see that the truncated hyperbolic Φ 3 3 -model(1.38) is almost surely globally well-posed with respect to the truncated Gibbs measure ρ N and, moreover, ρ N is invariant under the resulting dynamics; seeLemma 6.4. …”

“…In the same work, we also constructed the invariant Gibbs dynamics for the associated (canonical) stochastic quantization equation. See also [51,12,13] for the defocusing case (σ < 0). Note that when β = 0, the defocusing Hartree Φ 4 3 -measure reduces to the usual Φ 4 3 -measure.…”

Stochastic quantization of the $Φ^3_3$-model

“…As in case of the Φ 4 3 -measure in [3], we can prove uniform exponential integrability of the truncated density e −R N (u) in L p (µ) only for p = 1 due to the second renormalization introduced in (1.24). See also [51,12] for a similar phenomenon in the case of the defocusing Hartree Φ 4 3 -measure. We point out that the renormalized potential energy R N (u) in (1.24) does not converge to any limit and neither does the density e −R N (u) , which is essentially the source of the singularity of the Φ 3 3 -measure with respect to the massive Gaussian free field µ.…”

“…For this reason, he describes his new globalization argument as "the probabilistic version of a deterministic global theory using almost conservation laws". We also point out that Bringmann's analysis relies on the fact that the (truncated) Gibbs measure is absolutely continuous with respect to a shifted measure [51,12] (as in Appendix A below).…”

“…As a result, Bourgain's invariant measure argument [8,10] is not directly applicable to our problem. In [13], Bringmann encountered a similar problem in the context of the defocusing Hartree NLW on T 3 , where he overcame this issue by introducing a new globalization argument, by using the fact that the (truncated) Gibbs measure is absolutely continuous with respect to a shifted measure (as in Appendix A below) [51,12] in a uniform manner and establishing a (rather involved) large time stability theory, where sets of large probabilities are characterized via the shifted measures.…”

“…modification of the proof of Theorem 1.14 yields uniform (in N ) local well-posedness of the truncated equation (1.38) (with the same limiting process (u, ∂ t u) as in Theorem 1.14) for the initial data of the form(1.37). By exploiting (formal) invariance of the truncated Gibbs measure ρ N in (1.31),12 we see that the truncated hyperbolic Φ 3 3 -model(1.38) is almost surely globally well-posed with respect to the truncated Gibbs measure ρ N and, moreover, ρ N is invariant under the resulting dynamics; seeLemma 6.4. …”

“…In the same work, we also constructed the invariant Gibbs dynamics for the associated (canonical) stochastic quantization equation. See also [51,12,13] for the defocusing case (σ < 0). Note that when β = 0, the defocusing Hartree Φ 4 3 -measure reduces to the usual Φ 4 3 -measure.…”

Stochastic quantization of the $Φ^3_3$-model

The Wave Maps Equation and Brownian Paths

Invariant Gibbs measures for the three-dimensional wave equation with a Hartree nonlinearity I: measures