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
Michigan Tech Research Data

Cloud microphysical response to entrainment and mixing is locally inhomogeneous and globally homogeneous: Evidence from the lab, JaeMin Yeom, Ian Helman, Prasanth Prabhakaran, Jesse Anderson, Fan Yang, Raymond Shaw, Will Cantrell
Michigan Tech Research Data

Scaling of Turbulence and Microphysics in a Convection–Cloud Chamber of Varying Height, Subin Thomas, Fan Yang, Mikhail Ovchinnikov, Will Cantrell, Raymond Shaw
Michigan Tech Publications

Molecular dynamics simulation data: mW and MLmW water model ice nucleation on a hydrophilic substrate with negative pressure, Will Cantrell, Tianshu Li, Issei Nakamura, Elise Rosky, Raymond Shaw
Michigan Tech Research Data

Data Supporting: Scaling of Turbulence and Microphysics in a Convection-Cloud Chamber of Varying Height, Subin Thomas, Fan Yang, Mikhail Ovchinnikov, Will Cantrell, Raymond Shaw
Michigan Tech Research Data

Homogeneous ice nucleation rate at negative pressures: The role of the density anomaly, Elise Rosky, Will Cantrell, Tianshu Li, Raymond Shaw
Michigan Tech Publications

Direct numerical simulation of turbulence and microphysics in the Pi Chamber, Theodore Macmillan, Raymond Shaw, Will Cantrell, David H. Richter
Michigan Tech Publications

Dimensionless parameters for cloudy Rayleigh-Bénard convection: Supersaturation, Damköhler, and Nusselt numbers, Subin Thomas, Prasanth Prabhakaran, Fan Yang, Will Cantrell, Raymond Shaw
Michigan Tech Publications

Is the Water Vapor Supersaturation Distribution Gaussian?, Subin Thomas, Prasanth Prabhakaran, Will Cantrell, Raymond Shaw
Michigan Tech Publications

Dependence of Aerosol-Droplet Partitioning on Turbulence in a Laboratory Cloud, Abu Sayeed Md Shawon, Prasanth Prabhakaran, Greg Kinney, Raymond A. Shaw, Will Cantrell
Michigan Tech Publications

Data in support of the paper "Dependence of aerosol-droplet partitioning on turbulence in a laboratory cloud", Abu Sayeed Md Shawon, Prasanth Prabhakaran, Gregory Kinney, Raymond Shaw, Will Cantrell
Michigan Tech Research Data

Multivalent Surface Cations Enhance Heterogeneous Freezing of Water on Muscovite Mica, Nurun Nahar Lata, Jiarun Zhou, Pearce Hamilton, Michael Larsen, Sapna Sarupria, Will Cantrell
Michigan Tech Publications

The role of turbulent fluctuations in aerosol activation and cloud formation, Prasanth Prabhakaran, Abu Sayeed Md Shawon, Gregory Kinney, Subin Thomas, Will Cantrell, Raymond Shaw
Michigan Tech Publications

Cloud-aerosol-turbulence interactions: Science priorities and concepts for a large-scale laboratory facility, Raymond Shaw, Will Cantrell, Sisi Chen, Patrick Chuang, Neil Donahue, Graham Feingold, Pavlos Kollias, Alexei Korolev, Sonia Kreidenweis, Steven Krueger, Juan Pedro Mellado, Dennis Niedermeier, Lulin Xue
Michigan Tech Publications

Data supporting the paper "The role of turbulent fluctuations in aerosol activation and cloud formation", Prasanth Prabhakaran, Abu Sayeed Md Shawon, Greg Kinney, Subin Thomas, Will Cantrell, Raymond Shaw
Data Files

High Supersaturation in the Wake of Falling Hydrometeors: Implications for Cloud Invigoration and Ice Nucleation, Prasanth Prabhakaran, Gregory Kinney, Will Cantrell, Raymond A. Shaw, Eberhard Bodenschatz
Michigan Tech Publications

Data supporting the paper "High supersaturation in the wake of falling hydrometeors: Implications for cloud invigoration and ice nucleation", Prasanth Prabhakaran, G. Kinney, Will Cantrell, Raymond Shaw, Eberhard Bodenschatz
Michigan Tech Publications

Supersaturation fluctuations in moist turbulent Rayleigh–Bénard convection: a two-scalar transport problem, Kamal Kant Chandrakar, Will Cantrell, Steven Krueger, Raymond Shaw, Scott Wunsch
Michigan Tech Publications

Is contact nucleation caused by pressure perturbation?, Fan Yang, Will Cantrell, Alexander Kostinski, Raymond Shaw, Andrew M. Vogelmann
Michigan Tech Publications

Light scattering in a spatially-correlated particle field: Role of the radial distribution function, Corey D. Packard, Michael L. Larsen, Will Cantrell, Raymond Shaw
Michigan Tech Publications

Droplet size distributions in turbulent clouds: experimental evaluation of theoretical distributions, Kamal Kant Chandrakar, Izumi Saito, Fan Yang, Will Cantrell, Toshiyuki Gotoh, Raymond Shaw
Michigan Tech Publications

Extensive soot compaction by cloud processing from laboratory and field observations, Janarjan Bhandari, Swarup China, Kamal Kant Chandrakar, Greg Kinney, Will Cantrell, Raymond Shaw, Lynn Mazzoleni, Giulia Girotto, Noopur Sharma, Kyle Gorkowski, Stefania Gilardoni, Stefano Decesari, Maria Cristina Facchini, Nicola Zanca, Giulia Pavese, Francesco Esposito, Manvendra K Dubey, Allison C Aiken, Rajan K Chakrabarty, Hans Moosmüller, Timothy B Onasch, Rahul A Zaveri, Barbara V Scarnato, Paulo Fialho, Claudio Mazzoleni
Michigan Tech Publications

Scaling of an atmospheric model to simulate turbulence and cloud microphysics in the Pi Chamber, Subin Thomas, Mikhail Ovichinnikov, Fan Yang, Dennis van der Voort, Will Cantrell, Steven K. Krueger, Raymond Shaw
Michigan Tech Publications

Data supporting the paper "Scaling of an atmospheric model to simulate turbulence and cloud microphysics in the Pi Chamber", Subin Thomas, Mikhail S. Ovchinnikov, Fan Yang, Dennis van der Voort, Will Cantrell, Steven K. Krueger, Raymond Shaw
Department of Physics Publications

Data supporting the paper "Extensive Soot Compaction by Cloud Processing from Laboratory and Field Observations", Janarjan Bhandari, Swarup China, Kamal Kant Chandrakar, Greg Kinney, Will Cantrell, Raymond Shaw, Lynn R. Mazzoleni, Giulia Girotto, Noopur Sharma, Kyle Gorkowski, Stefania Gilardoni, Stefano Decesari, Maria Cristina Facchini, Nicola Zanca, Giulia Pavese, Francesco Esposito, Manvendra Dubey, Allison Aiken, Rajan K. Chakrabarty, Hans Moosmüller, Timothy B. Onasch, Rahul A. Zaveri, Barbara Scarnato, Paolo Fialho, Claudio Mazzoleni
Department of Physics Publications

Data supporting the paper "Dispersion aerosol indirect effect in turbulent clouds: laboratory measurements of effective radius", K. K. Chandrakar, Will Cantrell, A. Kostinski, R. A. Shaw
Department of Physics Publications

Dispersion aerosol indirect effect in turbulent clouds: Laboratory measurements of effective radius, K. K. Chandrakar, Will Cantrell, A. Kostinski, Raymond Shaw
Department of Physics Publications

Observation of a link between energy dissipation rate and oscillation frequency of the large-scale circulation in dry and moist Rayleigh-Bénard turbulence, Dennis Niedermeier, Kelken Chang, Will Cantrell, Kamal Kant Chandrakar, David Ciochetto, Raymond Shaw
Department of Physics Publications

Measuring the detector-observed impact of optical blurring due to aerosols in a laboratory cloud chamber, Cory Packard, Raymond Shaw, Will Cantrell, Greg Kinney, Michael Roggemann, John R. Valenzuela
Department of Physics Publications

Data supporting the paper "Influence of microphysical variability on stochastic condensation in a turbulent laboratory cloud", N. Desai, K. K. Chandrakar, K. Chang, Will Cantrell, Raymond Shaw
Department of Physics Publications

A laboratory facility to study gas-aerosol-cloud interactions in a turbulent environment: The Π Chamber, K. Chang, J. Bench, M. Brege, Will Cantrell, K. Chandrakar, David Ciochetto, Claudio Mazzoleni, Lynn Mazzoleni, Dennis Niedermeier, R. A. Shaw
Department of Physics Publications

Colliding plumes in a turbulent mixing cloud, Kelken Chang, K. Chandrakar, David Ciochetto, Will Cantrell, Raymond Shaw
Department of Physics Publications

Turbulent mixing cloud in the Pi Chamber, Kelken Chang, K. Chandrakar, David Ciochetto, Will Cantrell, Raymond Shaw
Department of Physics Publications

Characterization of dust particles’ 3D shape and roughness with nanometer resolution, Xinxin Woodward, Alexander Kostinski, Swarup China, Claudio Mazzoleni, Will Cantrell
Department of Physics Publications

Laboratory measurements of contact freezing by dust and bacteria at temperatures of mixed-phase clouds, Joseph Niehaus, John Becker, Alexander Kostinski, Will Cantrell
Department of Physics Publications

A technique to measure ice nuclei in the contact mode, Joseph Niehaus, Kristopher W. Bunker, Swarup China, Alexander Kostinski, Claudio Mazzoleni, Will Cantrell
Department of Physics Publications

Ice nucleation in the contact mode: Temperature and size dependence for selected dusts, Will Cantrell, Kristopher W. Bunker, Joseph Niehaus, Swarup China, Xinxin Woodward, Alexander Kostinski, Claudio Mazzoleni
Department of Physics Publications

Measurements of ice nucleation by mineral dusts in the contact mode, Kristopher W. Bunker, Swarup China, C. Mazzoleni, A. B. Kostinski, Will Cantrell
Department of Physics Publications

Heat of freezing for supercooled water: Measurements at atmospheric pressure, Will Cantrell, Alexander Kostinski, Anthony Szedlak, Alexandria Johnson
Department of Physics Publications

Detection of spatial correlations among aerosol particles, M. L. Larsen, Will Cantrell, Jonna Kannosto, Alexander Kostinski
Department of Physics Publications

Response from authors to comment on “Detection of spatial correlations among aerosol particles”, Michael L. Larsen, Will Cantrell, Alexander Kostinski, Jonna Kannosto
Department of Physics Publications

Measurements of the vapor pressure of supercooled water using infrared spectroscopy, Will Cantrell, Eli Ochshorn, Alexander Kostinski, Keith Bozin
Department of Physics Publications

Entropic aspects of supercooled droplet freezing, Alexander Kostinski, Will Cantrell
Department of Physics Publications