Adam Blumenthal
VerifiedGeorgia Institute of Technology · Civil Engineering
Active 2014–2026
Research topics
- Mathematics
- Mathematical analysis
- Pure mathematics
- Statistical physics
- Applied mathematics
Selected publications
Texts in applied mathematics · 2026-01-01
book-chapter1st authorTexts in applied mathematics · 2026-01-01
book-chapter1st authorTexts in applied mathematics · 2026-01-01
book-chapter1st authorInfinite-Dimensional Dynamical Systems
Texts in applied mathematics · 2026-01-01
book-chapter1st authorOperations on Measure-Preserving Transformations
Texts in applied mathematics · 2026-01-01
book-chapter1st authorCorrespondingLinear Operators Associated to Dynamical Systems
Texts in applied mathematics · 2026-01-01
book-chapter1st authorSparsity of Fourier mass of passively advected scalars in the Batchelor regime
Nonlinearity · 2026-01-19
articleOpen access1st authorCorrespondingAbstract In 1959, Batchelor gave a prediction for the power spectral density of a passive scalar advected by an incompressible fluid exhibiting shear-straining, a mechanism for the creation of small scales in the scalar (Batchelor 1959 J. Fluid Mech. 5 113–133). Recently, a ‘cumulative’ version of this law, summing over Fourier modes below a given wavenumber N , was given for a broad class of passive scalars under incompressible advection, including by solutions to the stochastic Navier–Stokes equations (Bedrossian et al 2022 Commun. Pure Appl. Math. 75 1237–91). This paper addresses to what extent Fourier mass of such passive scalars truly saturates the predicted power law scaling due to Batchelor. Via discrete-time pulsed-diffusion models of the advection-diffusion equations, we exhibit situations compatible with the cumulative law but for which the distribution of Fourier mass among wavenumbers <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" overflow="scroll"> <mml:mrow> <mml:mo stretchy="false">|</mml:mo> <mml:mi>k</mml:mi> <mml:mrow> <mml:mo stretchy="false">|</mml:mo> </mml:mrow> <mml:mtext>⩽</mml:mtext> <mml:mi>N</mml:mi> </mml:mrow> </mml:math> is relatively sparse , largely confined to a narrow cone in frequency space and badly violating the ‘mode-wise’ version of Batchelor’s original prediction. In the same situations we also establish an ‘exponential radial shell’ version of Batchelor’s laws via a novel application of the method of spectral distributions.
Texts in applied mathematics · 2026-01-01
book-chapter1st authorInvariant Measures for Continuous Maps
Texts in applied mathematics · 2026-01-01
book-chapter1st authorThree Basic Concepts: Recurrence, Ergodicity and Isomorphisms
Texts in applied mathematics · 2026-01-01
book-chapter1st author
Recent grants
PostDoctoral Research Fellowship
NSF · $150k · 2016–2020
NSF · $187k · 2020–2025
Frequent coauthors
- 17 shared
Lai-Sang Young
New York University
- 13 shared
Jacob Bedrossian
- 9 shared
Bastien Fernandez
Laboratoire de Probabilités et Modèles Aléatoires
- 9 shared
Sam Punshon-Smith
Institute for Advanced Study
- 9 shared
Samuel Punshon‐Smith
Tulane University
- 6 shared
Yun Yang
- 5 shared
Jinxin Xue
- 5 shared
Ian D. Morris
Queen Mary University of London
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