B
Bernardo Jaduszliwer
Researcher at The Aerospace Corporation
Publications - 18
Citations - 211
Bernardo Jaduszliwer is an academic researcher from The Aerospace Corporation. The author has contributed to research in topics: Atomic clock & Laser. The author has an hindex of 8, co-authored 18 publications receiving 179 citations.
Papers
More filters
Patent
Continuous cold atom beam atomic system
TL;DR: In this article, an improved magneto-optic trap is used to generate a high brightness low velocity continuous source of atoms as a continuous atomic beam using gradient magnetic fields and a single circularly polarized laser beam incident upon a right angle conical mirror.
Journal ArticleDOI
Past, present and future of atomic clocks for GNSS
TL;DR: In this article, the authors discuss how far and in what directions, atomic clock technology should be pushed to provide maximum benefits to GNSS performance, reliability and cost, and provide a baseline by reviewing current GNSS satellite atomic clock technologies.
Proceedings ArticleDOI
All-Optical Integrated rubidium Atomic Clock
L. Maleki,Anatoliy A. Savchenkov,Vladimir Ilchenko,Wei Liang,Danny Eliyahu,Andrey B. Matsko,David Seidel,Nathan P. Wells,James Camparo,Bernardo Jaduszliwer +9 more
TL;DR: In this article, an all-optical integrated micro-primary atomic clock (AO-IMPAC) is presented, which is based on an inhomogeneously broadened rubidium optical transition used for stabilization of a Kerr optical frequency comb generated in a high-Q whispering gallery mode (WGM) microresonator.
Patent
Diode laser interrogated fiber optic hydrazine-fuel sensor
TL;DR: A fiber optic chemical dosimeter system detects the presence of hydrazine fuels and nitrogen tetroxide and nitrogen dioxide gases that are used at rocket launch sites using colorimetric sensors that react selectively with the gases and then absorb laser light communicating through a fiber optic network having a conventional diode laser source transmitting interrogation pulses to a plurality of distributed sensors covering a wide area launch site, the sensor being reactive cladding or distal end types both providing optical reflective returns well suited for reflective near infra-red and visible-red laser interrogation by an optical time domain reflectometry monitor
Patent
Sensor for detection of nitrogen dioxide and nitrogen tetroxide
TL;DR: A fiber optic chemical dosimeter system detects the presence of hydrazine fuels and nitrogen tetroxide and nitrogen dioxide gases that are used at rocket launch sites using colorimetric sensors that react selectively with the gases and then absorb laser light communicating through a fiber optic network having a conventional diode laser source transmitting interrogation pulses to a plurality of distributed sensors covering a wide area launch site, the sensor being reactive cladding or distal end types both providing optical reflective returns well suited for reflective near infra-red and visible-red laser interrogation by an optical time domain reflectometry monitor