Experience

Joint Quantum Institute

• United States
• Research
• 1 - 100 Employee

• PHD Student

  • Aug 2021 - Present

  Quantum Photonics Group Advisor: Professor Edo Waks GPA: 4.00/4.00 > Working at the intersection of Cavity QED, Programmable Photonics and Machine Learning Quantum Photonics Group Advisor: Professor Edo Waks GPA: 4.00/4.00 > Working at the intersection of Cavity QED, Programmable Photonics and Machine Learning



Massachusetts Institute of Technology

• United States
• Higher Education
• 700 & Above Employee

• Visiting Researcher

  • Jun 2020 - Present

  > Undergraduate Thesis student in the Quantum Photonics Group. > Undergraduate Thesis: Quantum Nonlinear Optics for Machine Learning Accelerators. > Designed hardware accelerators for machine learning applications via frequency multiplexing schemes of three and four-wave mixing as well as a time-frequency multiplexing scheme through dispersive optics > Advisors: Prof. Dirk Englund and Dr. Stefan Krastanov > Undergraduate Thesis student in the Quantum Photonics Group. > Undergraduate Thesis: Quantum Nonlinear Optics for Machine Learning Accelerators. > Designed hardware accelerators for machine learning applications via frequency multiplexing schemes of three and four-wave mixing as well as a time-frequency multiplexing scheme through dispersive optics > Advisors: Prof. Dirk Englund and Dr. Stefan Krastanov



NTT RESEARCH

• United States
• Research
• 1 - 100 Employee

• Research Intern

  • May 2022 - Aug 2022

  > Worked on an architecture for multiport interferometers for programmable photonic circuits. Publication: A Self-Similar Sine-Cosine Fractal Architecture for Multiport Interferometers > Advisor: Dr. Ryan Hamerly > Worked on an architecture for multiport interferometers for programmable photonic circuits. Publication: A Self-Similar Sine-Cosine Fractal Architecture for Multiport Interferometers > Advisor: Dr. Ryan Hamerly



BITS Pilani, Hyderabad Campus

• India
• Higher Education
• 500 - 600 Employee

• Teaching Assistant

  • Aug 2020 - Dec 2020

  > Teaching Assistant for the course - Introduction to Quantum Information and Computation (BITS F386) > Teaching Assistant for the course - Introduction to Quantum Information and Computation (BITS F386)



Centre for Quantum Technologies

• Singapore
• Research Services
• 1 - 100 Employee

• Research Intern

  • Jun 2020 - Jul 2020

  > Worked remotely on the development of a program to simulate the T1 relaxation times of superconducting Transmon qubits in response to arbitrary driving fields using the QuTiP library. > Advisor: Dr. Rainer Dumke > Worked remotely on the development of a program to simulate the T1 relaxation times of superconducting Transmon qubits in response to arbitrary driving fields using the QuTiP library. > Advisor: Dr. Rainer Dumke



BITS Pilani, Hyderabad Campus

• India
• Higher Education
• 500 - 600 Employee

• Undergraduate Research Assistant

  • Jan 2018 - Jun 2020

  > Presently working on designing systems to obtain differential field enhancement for Photon Upconverting systems using Transformation Optics using anisotropic spacer materials. > Had worked on engineering principles for nanoscale non-reciprocal optical devices in the visible regime using Spoof Surface Plasmons on perforated metal films exhibiting Extraordinary Optical Transmission. > Advisor: Dr. Kannan Ramaswamy

• Teaching Assistant

  • Aug 2018 - Dec 2018

  > Teaching Assistant for the course - Physics Laboratory (PHY F110). > Taught a class of 60 students introductory physics experiments in classical mechanics and optics. > Assisted the faculty in making a video laboratory manual to aid the students understand the course material. > Course Instructor: Dr. Meenakshi Vishwanathan



Centre for Quantum Technologies

• Singapore
• Research Services
• 1 - 100 Employee

• Summer Research Intern

  • Jun 2019 - Aug 2019

  > Worked on the design of a cryogenic metal powder filter to attenuate high-frequency noise to cavity qubits as a component of a dilution refrigerator. The filter was designed as meandering copper circuit lines on an FR4 substrate covered in an aluminum-powder/epoxy mixture to attentate noise greater than 10GHz by a factor above 100 dB. Simulations were performed using COMSOL Multiphysics and the FDTool in MATLAB with attenuation curve characteristics similar to a Barlett-Hanning… Show more > Worked on the design of a cryogenic metal powder filter to attenuate high-frequency noise to cavity qubits as a component of a dilution refrigerator. The filter was designed as meandering copper circuit lines on an FR4 substrate covered in an aluminum-powder/epoxy mixture to attentate noise greater than 10GHz by a factor above 100 dB. Simulations were performed using COMSOL Multiphysics and the FDTool in MATLAB with attenuation curve characteristics similar to a Barlett-Hanning filter. > Made a laser imaging system to optically manipulate trapping geometries for ultracold atoms using a Spatial Light Modulator (SLM). The Digital Micromirror Device used was the TI DLP3000 LightCrafter, with trapping geometries designed using MATLAB and the optical setup made on a 40cm x 40cm board. > Advisor: Dr. Rainer Dumke Show less > Worked on the design of a cryogenic metal powder filter to attenuate high-frequency noise to cavity qubits as a component of a dilution refrigerator. The filter was designed as meandering copper circuit lines on an FR4 substrate covered in an aluminum-powder/epoxy mixture to attentate noise greater than 10GHz by a factor above 100 dB. Simulations were performed using COMSOL Multiphysics and the FDTool in MATLAB with attenuation curve characteristics similar to a Barlett-Hanning… Show more > Worked on the design of a cryogenic metal powder filter to attenuate high-frequency noise to cavity qubits as a component of a dilution refrigerator. The filter was designed as meandering copper circuit lines on an FR4 substrate covered in an aluminum-powder/epoxy mixture to attentate noise greater than 10GHz by a factor above 100 dB. Simulations were performed using COMSOL Multiphysics and the FDTool in MATLAB with attenuation curve characteristics similar to a Barlett-Hanning filter. > Made a laser imaging system to optically manipulate trapping geometries for ultracold atoms using a Spatial Light Modulator (SLM). The Digital Micromirror Device used was the TI DLP3000 LightCrafter, with trapping geometries designed using MATLAB and the optical setup made on a 40cm x 40cm board. > Advisor: Dr. Rainer Dumke Show less