ProfessorsProfessors of Michigan Technological UniversityRaymond A. Shaw

Raymond A. Shaw

Michigan Technological University

H-index: 49

North America-United States

About Raymond A. Shaw

Raymond A. Shaw, With an exceptional h-index of 49 and a recent h-index of 34 (since 2020), a distinguished researcher at Michigan Technological University, specializes in the field of atmospheric physics, turbulence, cloud physics, nucleation, holography.

His recent articles reflect a diverse array of research interests and contributions to the field:

Understanding cloud structures with machine learning-An algorithm to represent sub-grid scale variability in stratocumulus clouds

Modeling the Subgrid-Scale Scalar Variance: A Priori Tests and Application to Supersaturation in Cloud Turbulence

Designing a convection‐cloud chamber for collision‐coalescence using large‐eddy simulation with bin microphysics

Droplet growth or evaporation does not buffer the variability in supersaturation in clean clouds

Glaciation of Mixed-Phase Clouds: Insights from Bulk Model and Bin-Microphysics Large-Eddy Simulation Informed by Laboratory Experiment

High‐resolution measurements of microphysics and entrainment in marine stratocumulus clouds

A single-photon lidar observes atmospheric clouds at decimeter scales: resolving droplet activation within cloud base

Physical science research needed to evaluate the viability and risks of marine cloud brightening

Raymond A. Shaw Information

University	Michigan Technological University
Position	Professor of Physics
Citations(all)	8188
Citations(since 2020)	3520
Cited By	6024
hIndex(all)	49
hIndex(since 2020)	34
i10Index(all)	115
i10Index(since 2020)	100
Email	Access Email
University Profile Page	Michigan Technological University
Google Scholar	View Google Scholar Profile

Raymond A. Shaw Skills & Research Interests

atmospheric physics

turbulence

cloud physics

nucleation

holography

Top articles of Raymond A. Shaw

Title	Journal	Author(s)	Publication Date
Understanding cloud structures with machine learning-An algorithm to represent sub-grid scale variability in stratocumulus clouds		Nithin Allwayin Michael Larsen Alexander Shaw Kamal Kant Chandrakar Susanne Glienke ...	2024/3/7
Modeling the Subgrid-Scale Scalar Variance: A Priori Tests and Application to Supersaturation in Cloud Turbulence	Journal of the Atmospheric Sciences	Scott T Salesky Kendra Gillis Jesse Anderson Ian Helman Will Cantrell ...	2024/3/20
Designing a convection‐cloud chamber for collision‐coalescence using large‐eddy simulation with bin microphysics	Journal of Advances in Modeling Earth Systems	Aaron Wang Mikhail Ovchinnikov Fan Yang Silvio Schmalfuss Raymond A Shaw	2024/1
Droplet growth or evaporation does not buffer the variability in supersaturation in clean clouds	Journal of the Atmospheric Sciences	Jesse C Anderson Ian Helman Raymond A Shaw Will Cantrell	2024/1
Glaciation of Mixed-Phase Clouds: Insights from Bulk Model and Bin-Microphysics Large-Eddy Simulation Informed by Laboratory Experiment	EGUsphere	Aaron Wang Steve Krueger Sisi Chen Mikhail Ovchinnikov Will Cantrell ...	2024/4/22
High‐resolution measurements of microphysics and entrainment in marine stratocumulus clouds	Quarterly Journal of the Royal Meteorological Society	Jae Min Yeom Kai‐Erik Szodry Holger Siebert André Ehrlich Juan Pedro Mellado ...	2023/10/17
A single-photon lidar observes atmospheric clouds at decimeter scales: resolving droplet activation within cloud base	npj Climate and Atmospheric Science	Fan Yang Alex B Kostinski Zeen Zhu Katia Lamer Edward Luke ...	2024/4/20
Physical science research needed to evaluate the viability and risks of marine cloud brightening		Graham Feingold Virendra P Ghate Lynn M Russell Peter Blossey Will Cantrell ...	2024/3/20
Scaling of turbulence and microphysics in a convection–cloud chamber of varying height	Journal of Advances in Modeling Earth Systems	Subin Thomas Fan Yang Mikhail Ovchinnikov Will Cantrell Raymond A Shaw	2023/2
Enhancements in cloud condensation nuclei activity from turbulent fluctuations in supersaturation	Geophysical Research Letters	Jesse C Anderson Payton Beeler Mikhail Ovchinnikov Will Cantrell Steven Krueger ...	2023/9/16
The Settling Rates of Particles in Rayleigh–Bénard Turbulence	Bulletin of the American Physical Society	Kristin Swartz-Schult Jesse Anderson Hamed Fahandezh Sadi Swafuva Varappillikudy Sulaiman Will Cantrell ...	2023/11/20
Lagrangian and Eulerian supersaturation statistics in turbulent cloudy Rayleigh–Bénard convection: applications for LES subgrid modeling	Journal of the Atmospheric Sciences	Kamal Kant Chandrakar Hugh Morrison Raymond A Shaw	2023/9
Detection of small drizzle droplets in a large cloud chamber using ultra high-resolution radar	Atmospheric Measurement Techniques Discussions	Zeen Zhu Fan Yang Pavlos Kollias Raymond Shaw Alex Kostinski ...	2023/10/26
Aerosol impacts on convective cloud properties observed during ESCAPE		Greg McFarquhar Saurabh Patil Mengistu Wolde Cuong Nguyen Roelof Bruintjes ...	2023
Performance of optical sensors for cloud measurements deployed by the ARM Aerial Facility during ACE-ENA	Applied Optics	Susanne Glienke Nithin Allwayin Fan Mei Jennifer M Comstock Raymond A Shaw ...	2023/7/1
Computational studies on the influence of turbulence on ice crystal formation and diffusional growth in mixed-phase clouds		Seyedehkoukab Gouharianmohammadi Dennis Niedermeier Silvio Schmalfuß Juan-Pedro Mellado Raymond Shaw ...	2023
Cloud microphysical response to entrainment and mixing is locally inhomogeneous and globally homogeneous: Evidence from the lab	Proceedings of the National Academy of Sciences	Jae Min Yeom Ian Helman Prasanth Prabhakaran Jesse C Anderson Fan Yang ...	2023/10/17
Data supporting the paper"" Droplet growth or evaporation does not buffer the variability in supersaturation in clean clouds"		Jesse Anderson Ian Helman Raymond Shaw Will Cantrell	2023
An intercomparison of large‐eddy simulations of a convection cloud chamber using haze‐capable bin and Lagrangian cloud microphysics schemes	Journal of Advances in Modeling Earth Systems	Fan Yang Fabian Hoffmann Raymond A Shaw Mikhail Ovchinnikov Andrew M Vogelmann	2023/5
Fast and slow microphysics regimes in a minimalist model of cloudy Rayleigh-Bénard convection	Physical Review Research	Raymond A Shaw Subin Thomas Prasanth Prabhakaran Will Cantrell Mikhail Ovchinnikov ...	2023/10/6