Publications
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Inferring interaction potentials from stochastic particle trajectories
Ella M. King, Megan Engel, Caroline Martin, Sam Schoenholz, Vinothan N. Manoharan, and Michael Brenner
Recommended citation: Ella M. King, Megan Engel, Caroline Martin, Sam Schoenholz, Vinothan N. Manoharan, and Michael Brenner. “Inferring interaction potentials from stochastic particle trajectories.” 4/22/2025. Physical Review Research, 7.
Colloidal crystallization on cones
Jessica H. Sun, Grace H. Zhang, Abigail Plummer, Caroline Martin, Nabila Tanjeem, David R. Nelson, Vinothan N. Manoharan
Recommended citation: Jessica H. Sun, Grace H. Zhang, Abigail Plummer, Caroline Martin, Nabila Tanjeem, David R. Nelson, and Vinothan N. Manoharan. “Colloidal Crystallization on Cones.” 1/3/2025. Physical Review Letters, 134.
Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis
Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann, and Vinothan N. Manoharan
Recommended citation: Xander M. de Wit, Amelia W. Paine, Caroline Martin, Aaron M. Goldfain, Rees F. Garmann, and Vinothan N. Manoharan. “Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis.” 9/20/2023. Applied Optics, 62, 27.
WOW STEM: Addressing the STEM gender gap with accessible educational content
Caroline Martin, Madelyn Leembruggen, and Taylor Contreras
Recommended citation: Caroline Martin, Madelyn Leembruggen, and Taylor Contreras. “WOW STEM: Addressing the STEM gender gap with accessible educational content.” 5/15/2023. American Philosophical Society, Women in Science: Achievements and Barriers.
In-line holographic microscopy with model-based analysis
Caroline Martin, Lauren E. Altman, Siddharth Rawat, Anna Wang, David G. Grier, and Vinothan N. Manoharan
Recommended citation: Caroline Martin, Lauren E. Altman, Siddharth Rawat, Anna Wang, David G. Grier, and Vinothan N. Manoharan. “In-line holographic microscopy with model-based analysis.” 10/22/2022. Nature Reviews Methods Primers, 2, 83.
What’s for Lunch? A systematic ordering of foods in the Soup-Salad-Sandwich phase space
Madelyn Leembruggen and Caroline Martin
Recommended citation: Madelyn Leembruggen and Caroline Martin. “What’s for Lunch? A systematic ordering of foods in the Soup-Salad-Sandwich phase space.” 4/1/2022.
Improving holographic particle characterization by modeling spherical aberration
Caroline Martin, Brian Leahy, and Vinothan N. Manoharan
Recommended citation: Caroline Martin, Brian Leahy, and Vinothan N. Manoharan. “Improving holographic particle characterization by modeling spherical aberration.” 2021. Optics Express, 29, 12, Pp. 18212–18223.
Large depth-of-field tracking of colloidal spheres in holographic microscopy by modeling the objective lens
Brian Leahy, Ronald Alexander, Caroline Martin, Solomon Barkley, and Vinothan Manoharan
Recommended citation: Brian Leahy, Ronald Alexander, Caroline Martin, Solomon Barkley, and Vinothan Manoharan. “Large depth-of-field tracking of colloidal spheres in holographic microscopy by modeling the objective lens.” 1/2020. Optics Express, 28, 2, Pp. 1061-1075.
Precision Measurements of Colloidal Dynamics with Holographic Microscopy
Caroline Martin
Recommended citation: Caroline Martin.“Precision Measurements of Colloidal Dynamics with Holographic Microscopy.” 4/29/2024. Harvard University, John A. Paulson School of Engineering and Applied Sciences, Department of Applied Physics.
Application of Bayesian Inference to Analysis of Dynamic Light Scattering Data to Determine Particle Size Distributions
Caroline Martin
Recommended citation: Caroline Martin. “Application of Bayesian Inference to Analysis of Dynamic Light Scattering Data to Determine Particle Size Distributions.” 6/5/2018. Wellesley College Department of Physics.