- ESTCE, Universitat Jaume I · 12071 - Castellón de la Plana
Optical frequency comb interferometry
Optical frequency comb interferometry for sensing, metrology, and imaging.
Lab fully equipped with fiber optic components and instrumentation for optical frequency comb interferometry.
Research projects on optical frequency comb interferometry.
From the beginning of the century, the generation of optical frequency combs has become a milestone in the field of laser technology. A frequency comb is an optical spectrum composed of evenly spaced coherent lines. This kind of spectra has been exploited for a large number of applications, including molecular fingerprinting, trace gas sensing in the oil and gas industry, tests of fundamental physics with atomic clocks, calibration of atomic spectrographs, arbitrary waveform measurements for optical communication, and precision ranging. The importance of the comb technology has been explicitly recognized with the award of half the Nobel prize in Physics to John Hall and Theodor Hänsch in 2005.
Our group carries out innovative research in the development of fiber-based interferometric systems based on two mutually coherent frequency combs. Our expertise covers different comb platforms (especially those generated by modulation of a continuous-wave laser) and is enriched by a continued collaboration with a number of groups in Spain and Europe. The research on frequency comb interferometry pursues impact applications in diverse areas, such as optical fiber sensing, ultrafast optical metrology and computational imaging.
Using the interference of two mutually coherent combs as a measurement tool
Dynamically measuring disturbances along the length of a fiber
Exploiting coherent combs to measure distances and vibrations
Using frequency combs to spatially resolve the spectral response of a sample
Miguel Soriano-Amat, Hugo F. Martins, Sonia Martin-Lopez, Miguel Gonzalez-Herraez, María R. Fernández-Ruiz, and Vicente Durán. OPTICS EXPRESS. Vol. 31. Pp. 843-852. 2023.
Vicente Durán, Camilo Escobar Vera, Miguel Soriano Amat, Hugo F. Martins, Sonia Martin Lopez, Miguel Gonzalez Herraez, Maria R. Fernandez-Ruiz. OPTICS EXPRESS. Num. 14. Vol. 30. pp. 25103-25110. 2022.
Vicente Andrés Durán Bosch. NATURE PHOTONICS. Num. 8. Vol. 15. pp. 553-554. 2021. Científico.
Vincent Billault, Vicente Andrés Durán Bosch, Carlos R. Fernández Pousa, Vincent Crozatier, Daniel Dolfi, Hugues Guillet de Chatellus. OPTICS EXPRESS. Num. 14. Vol. 29. pp. 21369-21385. 2021.
Miguel Soriano Amat, Hugo F. Martins, Vicente Andrés Durán Bosch, Sonia Martin Lopez, Miguel Gonzalez Herraez, María R. Fernández Ruiz. Light-Science & Applications. Num. 1. Vol. 10. pp. 1-12. 2021.
Miguel Soriano Amat, Marcelo A. Soto, Vicente Andrés Durán Bosch, Hugo F. Martins, Sonia Martin Lopez, Miguel Gonzalez Herraez, María R. Fernández Ruiz. JOURNAL OF LIGHTWAVE TECHNOLOGY. Num. 18. Vol. 38. pp. 5107-5115. 2020.
Vicente Andrés Durán Bosch, Leo Djevarhidjian, Hugues Guillet de Chatellus. OPTICS LETTERS. Num. 15. Vol. 44. pp. 3789-3792. 2019.
Vicente Andrés Durán Bosch, Come Schnebelin, Hugues Guillet De Chatellus. OPTICS EXPRESS. Num. 11. Vol. 26. pp. 13800-13809. 2018.
Vicente Durán, Peter A. Andrekson, Víctor Torres-Company. OPTICS LETTERS. Vol. 41. pp. 4190-4193. 2016.
Vicente Durán, Santiago Tainta, Victor Torres-Company. OPTICS EXPRESS. Vol. 23. pp. 30557-30569. 2015.
UJI-B2022-53, Universitat Jaume I, 01/01/2023 – 31/12/2025
RTI2018-097957-B-C32, Agencia Estatal de Investigación (AEI), 01/01/2019-30/09/2022
Prof. Hugues Guillet de Chatellus, at CNRS (Centre National de la Recherche Scientifique), Laboratoire Interdisciplinaire de Physique, Grenoble, France.
Prof. Víctor Torres-Company, at Chalmers University of Technology, Gothenburg, Sweden.