Using Raman Analysis to Identify Microplastics in Environmental Samples
Kaleigh Rook Mentors Dr. Andrew Berger and Dr. Samantha Romanick “Everything you make returns to the Earth as either food or poison.” Abstract Microplastics have permeated every corner of our…
Nonlinear Propagation of Volumetrically Full Poincaré Beams
Tatsunosuke Hanano Mentor Professor Robert Boyd Abstract Light with structured polarization is called polarization structured beams, and they have gotten attention because of their ability to process more information per…
Pupil mask mask system for a MEMS DM segmented mirror model
Antony Georgiadis Mentors Professor James Fienup and Joseph Tang Abstract Wavefront sensing via phase retrieval algorithms are critical to enabling the use of large aperture systems on the ground and…
Characterizing Single Photon Emitters in Silicon Nitride
Nicholas Achuthan Mentors Professors Pablo Postigo and Jaime Cardenas Abstract Single photon emitters (SPEs) are a key building block for integrated quantum photonic circuits, but current implementations rely on heterogeneous…
IRL
Team Mentor Prof. Jennifer Kruschwitz Background IRL Glasses is a product with the goal of minimizing the amount of technology people have to interact with on a daily basis. The first…
ASML Computational Imaging to Compensate Optical Aberrations
The purpose of this project is to create a computational algorithm capable of taking an aberrated image and correct it to a sharp high contrast image. We used optical design…
CubeSat
Team Customer Dr. Daniel Brooks – Optimax Systems Inc. Mentor Dr. Aaron Bauer – Institute of Optics Abstract The goal of this design project was to demonstrate the capabilities of…
META360 – Hybrid Refractive-Metalens Design
The META360 project seeks to enhance the current Circle Optics 360º field-of-view stitch-free camera system using novel meta-optics technology. Using Synopsys’ new MetaOptic Designer software, we explore the use of meta-optics in a hybrid lens design.
RMSC
Team Mentor Professor Greg Schmidt Abstract Our Group’s Senior Design Team was tasked with designing a museum exhibit for RMSC that offered a fun experience for participants of all ages…
SPLAY
Optical Design of a Compact Projector Lens for a Portable Display Project Vision The desired product is a portable display consisting of a collapsible screen and a compact projector with…
iTEST
Team Mentor Brandon Zimmerman Abstract The Clear Eye Exam allows for users to take an eye exam from their home and obtain an eye prescription. This lets people have an…
ASML Broadband Single-mode Fiber Coupler
DCORE4 Team Mentors Govind P. Agrawal, Julie Bentley, Jacob Roccabruno Abstract The optical senior design class at the University of Rochester strives to tackle engineering problems through engineering processes and…
Myopia Control with Optical Design
This senior design-driven project creates accurate Zemax ray-tracing models of the human eye to evaluate diffractive-refractive hybrid contact lenses for correcting wavefront error and chromatic aberration. The eventual goal is to apply the technology to school-aged children to prevent the progression of myopia development.
AGR – A Hyperspectral System with Spatial Resolution
Team Mentor Professor Greg Schmidt Abstract Advanced Growing Resources (AGR), is pioneering targeting systems that send mass pesticide blanketing towards obsolescence. The targeting system that was designed during this project…
Nighthawk Solutions DIY Telescope Kit for Kids; Inspiration for Science and Technology
Mission Statement The goal of our project is to create a Do-It-Yourself (DIY) telescope that provides an engaging and educational experience for kids. The telescope will come fully disassembled, empowering…
Mid-Wave IR Read-Out Integrated Circuit
Team Mentor Professor Mottley and Professor Phinney Abstract Wildfires burn 7 million acres of land in the US every year. We present a read-out integrated circuit (ROIC) designed to be…
Danbury Mission Technologies – Creating an Optical Polisher
Design an interchangeable, fixed offset, fixed gear-ratio eccentric tool spindle for gravity-loaded optical polishing procedures.
Two-Color Nonlocal Aberration Cancellation
Two-Color Nonlocal Aberration Cancellation is one of the many exciting applications of quantum entanglement. In this experiment we create position-momentum entangled photons via SPDC.
RMSC
We designed an interactive and educational imaging system. The guest will be able to project an image onto a screen.
NANOAR
Have you heard of an AR coating without actually coating any materials while working for a wide bandwidth from UV to IR? That is the nanostructure coating.
iMG
Our goal is to use existing tools and our optical knowledge to build a simulation tool that carries out a rigorous optical analysis and simulates the imaging of a satellite at a range of distances, attitudes, and illumination angles.
FIBER
The simulation will model the output characteristics as light travels through the fiber, giving a rare look at a otherwise inaccessible areas of the fiber.
CubeSat
We designed an optical system for a NASA ROSES proposal. The system would be housed within a CubeSat and study Zodiacal light.
Effects of Estimate Phase Screen Placement
on Digital Holography Imaging Through
Atmospheric Turbulence
Determining where best to locate estimate phase screens when correcting volume turbulence through post-processing
Yanik Thesis
Probability distributions of work and entropy of a qubit engine powered by simultaneous weak quantum measurements.
Zhengynag Xu Thesis
Improving closed-loop wavefront correction speed for primate retinal imaging.
Reflective Imaging in Scanning Electron Microscopes
Investigation and analysis of creating mirror fields to deflect the primary electron beam with charged materials. Electron mirrors produce a fisheye view of the interior of the SEM sample chamber.
Full Poincaré Fields Composed of a Discrete Number of Plane Waves
In this thesis, we numerically and analytically analyzed the superposition of multiple paraxial plane waves and discovered the pattern of such superpositions composing FP fields.
Optimization of Silicon Photomultiplier Detectors for Fast Fluorescence Imaging
Improving silicon photomultiplier bandwidth for fast, low-signal applications.