Experience

Energetiq Technology
• United States
• Semiconductors
• 1 - 100 Employee
• Principal Scientist

  • Aug 2022 - Present


ASML

• Netherlands
• Semiconductor Manufacturing
• 700 & Above Employee

• Sr. Lithography Systems Performance Architect

  • Jan 2022 - Aug 2022

• Lithography Systems Performance Architect

  • Jan 2021 - Dec 2021

  Provide technical leadership to a team of ~5-10 senior engineers / scientists; comprising tribology, surface science, optics, physics and mechanics competencies; working on design and development of modules used to improve performance of ASML's lithography systems.Main job responsibilities: Requirements engineering, lead design and development efforts, design for manufacturability and system integration, stakeholder management, ensure quality through technical documentation, identify and manage risks through the development process Show less

• Senior Design Engineer (Optical)

  • Nov 2018 - Dec 2020

  Design, development and industrialization of modules that are integrated into ASML's lithography systems. Main job responsibilities: optical data analysis, build and sustain metrology systems, design imaging and metrology systems, develop and maintain software used in manufacturing key lithography sub-modules, technical documentation



University of Rochester

• United States
• Higher Education
• 700 & Above Employee

• Graduate Research Assistant

  • Sep 2013 - Sep 2018

  My PhD research includes:- Investigating novel nonlinear optical phenomena that occur in multimode fibers, both experimentally and by modeling coupled nonlinear equations for light propagation through a waveguide.- Designing proof-of-concept experiments to show amplification of an incident optical signal on a vertical cavity surface emitting laser (VCSEL) diode for use in earth to near-earth satellite communication systems.

• Teaching Assistant

  • Jan 2013 - May 2014

  Courses: Interference and Diffraction - Spring 2013Optoelectronics - Fall 2013Electromagnetic Waves - Spring 2014

• Masters Student

  • Aug 2012 - May 2013

  Master's Essay - Hollow Core Photonic Crystal FibersA literature review of the state of the art of Photonic Crystal Fibers with an emphasis on the physics and properties of the Hollow Core Photonic Crystal Fibers.



MERL

• Nigeria
• Philanthropic Fundraising Services

• Intern

  • May 2018 - Aug 2018

  Experimental and theoretical work on coherent optical communication systems. Experimental and theoretical work on coherent optical communication systems.



Nokia Bell Labs

• Telecommunications
• 700 & Above Employee

• Visiting Researcher

  • Sep 2017 - Nov 2017

  My work at Bell Labs included: - Developing a comprehensive model to study the impact of arbitrary levels of linear coupling on nonlinear transmission in multimode and coupled-core fibers in space-division multiplexing (SDM) telecom systems. - Experimental investigation of coupling dynamics in coupled-core fibers by analyzing the back-scattered signal using an optical vector network analyzer (OVNA). My work at Bell Labs included: - Developing a comprehensive model to study the impact of arbitrary levels of linear coupling on nonlinear transmission in multimode and coupled-core fibers in space-division multiplexing (SDM) telecom systems. - Experimental investigation of coupling dynamics in coupled-core fibers by analyzing the back-scattered signal using an optical vector network analyzer (OVNA).



Northwestern University

• Philippines
• Higher Education
• 1 - 100 Employee

• Student Intern

  • May 2011 - Jul 2011

  The project involved constructing a diode laser using a 650 nm diode and then using the Pound Drever Hall technique to lock the output of the laser to a resonating mode of a thermally stabilized Fabry-Perot cavity. This work was carried out at Dr. Brian Odom's Lab at the Department of Physics and Astronomy, Northwestern University. The project involved constructing a diode laser using a 650 nm diode and then using the Pound Drever Hall technique to lock the output of the laser to a resonating mode of a thermally stabilized Fabry-Perot cavity. This work was carried out at Dr. Brian Odom's Lab at the Department of Physics and Astronomy, Northwestern University.



Physical Research Laboratory

• Research Services
• 300 - 400 Employee

• Student Intern

  • May 2010 - Jul 2010

  The aim of this project was to trap and analyze microscopic silica particles using a continuous wave diode laser (optical tweezer). Particles of various sizes and in different numbers were trapped using an inverted microscope setup and sequential images were generated using a CCD camera. Auto-correlation studies on the images were performed to evaluate the force dependence on factors like size and number of particles trapped. This work was carried out at Dr. R P Singh's Quantum Optics and Quantum Information Lab at PRL. Show less