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Hey! šŸ‘‹

My name is Juan Villegas. I'm a researcher working in supercoductive circuit design and quantum computing.

In the first part of the 10s, I worked as a high speed boat designer, and slowly moved into the reseacrh of electrical and electronic systems onboard ships, but then quickly jumped into photonic research when I started graduate school at the Masdar Institute, in Abu Dhabi. I completed my masters in Microsystems Engineering from Khalifa University working with professor Marcus Dahlem on the study of materials for planar optical systems. Later I started a PhD in Electrical Engineering at NYU, working with professor Mahmoud Rasras where I worked on many projects in photonics, including laser fault injection on chips, inverse design, high speed modulators and photodetectors, and physical layer security in optical networks.

Projects I have worked on trough the years include the study of materials for integrated optics and solar cells, integration of 2D materials with silicon photonics, silicon physical unclonable functions, polarization encryption and more to come.

For more information on some of my academic projects check out my google scholar profile.

  • šŸ”­ Iā€™m currently working on the development of designs for superconductive qunatum computers.

  • šŸŒ± Iā€™m currently learning quantum computing.

  • šŸ‘Æ Iā€™m looking to collaborate on projects related to photonic circuit design and superconductive cirucits.

  • šŸ¤” Iā€™m looking for help with design of Purcell filters in superconductive microwave systems.

  • šŸ’¬ Ask me about touch-rugby, mountain hiking and beach volleyball. Or about travelling in Colombia or the UAE.

Juan E. Villegas's Projects

2mode_splitter icon 2mode_splitter

Data from the characterization of a 2mode y-splitter in Silicon. The splitter allows separating the fundamental s-mode (TE0) into the fundamental mode of two output waveguides with equal phase, or the first odd s-mode (TE1) intop the same output modes buit with a phase of 180 deg.

aes icon aes

Basic AES128 encryption algorithm using GF28 objects.

extractdata icon extractdata

This project takes a MATLAB .mat file containing all of the lat, long, date and count information of a HAB. This then generates an H5 file per sample line in the ground truth file. This H5 file contains all of the imaging data from the satelites. Thse H5 files can then be used for machine learning (cross validation etc.). This version is checked for compatibility with windows machines.

gf2-8 icon gf2-8

Class for basic finite field operations on GF(2^8).

graphene-carrier-density icon graphene-carrier-density

Matlab implementation of carrier density model for graphene and application to fit a 3D semiconductor carrier model to that of Graphene, finding a pseudo carrier effective mass around a set of values of Ef, Ec and a pseudothickness t.

keysightrlc icon keysightrlc

Code to run sweeps with the Keysight E4980A RLC meter and retrieve the data.

modecontroller icon modecontroller

A shape optimized mode y-splitter designed using the adjoint method and used as a mode controller.

opuf_cleo icon opuf_cleo

Data analysis for the study of OPUF performance under varied input power levels.

orpl icon orpl

Open Raman Processing Library

peopufs icon peopufs

Data and processing functions for Plasmonic Enhanced studies of Optical Physically Unclonable Functions.

prl_pdk icon prl_pdk

PDK with various Silicon Photonic Devices

qcharacterization icon qcharacterization

Basic continous wave characterization of quantum devices using a Keysight VNA and few other stuff.

siepic-tools icon siepic-tools

Package for KLayout to add integrated optics / silicon photonics functionality (waveguides, netlist extraction, circuit simulations, etc)

siliconphotonicsdesign icon siliconphotonicsdesign

Textbook: Lukas Chrostowski, Michael Hochberg, "Silicon Photonics Design", Cambridge University Press 2015

spectralm icon spectralm

A matlab based interface to keysight (agilent) equipment for insertion loss measurements of optical systems.

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