Luca Teruzzi

Luca Teruzzi
University of Milan | UNIMI · Department of Physics

Master of Science
Integrated optical characterization of aeolian dust in Polar and Alpine cryosphere and in atmospheric aerosols

About

2
Publications
215
Reads
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13
Citations
Citations since 2017
2 Research Items
13 Citations
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201720182019202020212022202301234567
201720182019202020212022202301234567
201720182019202020212022202301234567
Introduction
Research fellow currently working at the EuroCold Lab of the University of Milano-Bicocca (Dep. of Environmental Sciences), developing optical instrumentation for ice cores analyses. Previously student at the Physics Department of the University of Milan, where I got my bachelor's and master's degrees developing interferometric techniques for beam sizing and for characterizing the coherence properties of different kind of radiation.
Additional affiliations
January 2022 - present
University of Milan
Position
  • PhD Student
Description
  • My PhD project is based on the optical characterization of aeolian dust in Polar and Alpine cryosphere and in atmospheric aerosols to improve the understanding of climate-regulating processes.
July 2021 - December 2021
Università degli Studi di Milano-Bicocca
Position
  • Fellow
Description
  • I work for the development of optical and electronic instrumentation for ice cores analyses within the project "Misure di carote di ghiaccio con scanner HyperIce e assemblaggio di un sistema per flow-injection analysis" at the EuroCold Lab (DISAT - Unimib)
Education
September 2018 - February 2021
University of Milan
Field of study
  • Physics of Matter
September 2014 - April 2018
University of Milan
Field of study
  • Physics

Publications

Publications (2)
Article
Full-text available
In this paper we report on recent two-dimensional (2D) electron beam size measurements with a nonconventional synchrotron radiation interferometric technique based on x-ray heterodyne near field speckles (HNFS). The method relies on Fourier analysis of the random speckle patterns generated by a water suspension of nanospheres to assess the full 2D...
Article
Full-text available
We show a single-shot technique to measure topological and phase properties of radiation carrying orbital angular momentum. The single-shot method is effectively described as the one-dimensional case of a more general two-dimensional approach based on scanning interferometry (asymmetric lateral coherence). The validity of the method has been experi...

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