Lishibanya Mohapatra

Assistant Professor

School of Physics and Astronomy

College of Science

lxmsps@rit.edu

585-475-5128

Office Location

GOS-3336

Lishibanya Mohapatra

Assistant Professor

School of Physics and Astronomy

College of Science

Bio

Just like human bodies have organs to complete various biological functions, cells have distinguishable subcellular parts called organelles, each specifically designed for its own specialized tasks. My group uses math, physics and computation to study how cells measure and control the size of their organelles.

lxmsps@rit.edu

585-475-5128

Personal Links

Personal Website

Areas of Expertise

Physics

Biophysics

Computational Biology

Computational Modelling

Interdisciplinary Research

Stochastic Processes

Mathematical Modeling

Organelle Assembly

Select Scholarship

Journal Paper

Shiff, Chloe E., Jane Kondev, and Lishibanya Mohapatra. "Ultrasensitivity of microtubule severing due to damage repair." iScience 27. 2 (2024): 0. Web.

Momcilovic, Petar, et al. "A Probabilistic Approach to Growth Networks." Operation Research. (2021): 1-7. Web.

Fai, Thomas F, et al. "Length regulation of multiple flagella that self-assemble from a shared pool of components." eLife. (2019): 1-31. Web.

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Published Review

Dill, Ken A. "Annual Reviews of Biophysics." Rev. of Design Principles of Length Control of Cytoskeletal Structures, by Lishibanya Mohapatra, et al. Design Principles of Length Control of Cytoskeletal Structures 26 Apr. 2016: 85-116. Web.

Currently Teaching

MATH-790

Research & Thesis

0 - 9 Credits

Masters-level research by the candidate on an appropriate topic as arranged between the candidate and the research advisor.

PHYS-211

University Physics I

4 Credits

This is a course in calculus-based physics for science and engineering majors. Topics include kinematics, planar motion, Newton's Laws, gravitation, work and energy, momentum and impulse, conservation laws, systems of particles, rotational motion, static equilibrium, mechanical oscillations and waves, and data presentation/analysis. The course is taught in a workshop format that integrates the material traditionally found in separate lecture and laboratory courses.

PHYS-214

Modern Physics II

3 Credits

This course is a continuation of a survey of modern physics beyond the topics introduced in Modern Physics I. Central topics include the physics of multi-electron atoms, molecular structure, fundamentals of statistical physics applied to systems of particles, elementary solid-state physics, applications to semiconductor materials and simple devices, and basic elements of nuclear physics.

PHYS-790

Graduate Research & Thesis

1 - 4 Credits

Graduate-level research by the candidate on an appropriate topic as arranged between the candidate and the research advisor.

PHYS-791

Continuation of Thesis

0 Credits

Graduate-level research by the candidate on an appropriate topic as arranged between the candidate and the research advisor.

In the News

March 14, 2025

RIT recognizes faculty-researchers for innovative projects and funding milestones

Researchers who contributed to RIT receiving nearly $103 million in sponsored research awards during the past fiscal year, including 10 faculty members who reached or surpassed $1 million this past fiscal year, were inducted into the yearly classes of PI Millionaires.
May 8, 2023

Squishing the barriers of physics

Four RIT faculty members are opening up soft matter physics, sometimes known as “squishy physics,” to a new generation of diverse scholars. Moumita Das, Poornima Padmanabhan, Shima Parsa, and Lishibanya Mohapatra are helping RIT make its mark in the field.

October 17, 2022

RIT hosts Upstate NY soft matter workshop

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