Nikos Karampitsos
About Nikos Karampitsos
Nikos Karampitsos is a Backend Software Engineer at Transifex, specializing in the development of laser measurement devices and web scraper services. He holds a Master's degree in Atomic/Molecular Physics and has authored over 10 academic publications.
Work at Transifex
Nikos Karampitsos has been employed at Transifex as a Backend Software Engineer since 2022. His role involves developing and maintaining backend services that support the company's localization platform. Based in Marousi, Attiki, Greece, he contributes to enhancing the efficiency and functionality of Transifex's software solutions.
Education and Expertise
Nikos Karampitsos studied at the University of Patras, where he earned a Bachelor's degree in Physics from 2013 to 2017. He continued his education at the same institution, achieving a Master of Science in Atomic/Molecular Physics from 2017 to 2019. His academic background provides a strong foundation for his expertise in backend development and laser technology.
Background in Research
Nikos Karampitsos has a background in research, having worked as a Researcher PhD Student at the University of Patras from 2019 to 2020. During this time, he contributed to various projects related to laser technology and nonlinear optics. His research experience includes the development of devices for measuring femtosecond laser pulse duration.
Technical Contributions
Nikos has made significant technical contributions in the field of optics and software development. He developed a single shot autocorrelator and an AC autocorrelator device for measuring femtosecond laser pulse duration. Additionally, he created the Phos Python library for parsing CCD camera data and the nonlight Python library, which optimized data processing time from one week to one day.
Publications and Academic Output
Nikos Karampitsos has authored over 10 academic publications, reflecting his contributions to the field of laser operational devices. His research work has been instrumental in advancing knowledge in nonlinear optical properties and has been shared within academic and professional communities.