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Dr. Chiara Mazzingui
Dr. Chiara Mazzingui

Felicitats a la nova graduada de doctorat de l'ICFO

La Dra. Chiara Mazzinghi s’ha graduat amb una tesi ‘Medicions no destructives millorades per cavitat del magnetisme atòmic’

July 26, 2023

Felicitem la Dra. Chiara Mazzinghi que avui ha defensat la seva tesi a l’auditori de l’ICFO.

La Dra. Mazzinghi va obtenir el seu màster de Física i Astrofísica a la Università degli Studi di Firenze a Itàlia. Es va unir a l’ICFO com a estudiant de doctorat al grup de recerca de Quantum Quantum Optics dirigit pel professor ICREA Dr. Morgan Mitchell. La tesi de la Dra. Mazzinghi titulada ‘Medicions no destructives millorades per cavitat del magnetisme atòmic’ (‘Cavity-enhanced non-destructive measurements of atomic magnetism’) ha estat supervisada pel professor ICREA Dr. Morgan Mitchell.

 

RESUMEN

In this work we propose and demonstrate cavity-enhanced polarization rotation to detect magnetic effects in transparent media with greater sensitivity at equal optical disturbance to the atomic medium. We use the Jones calculus to compute the effective polarization rotation effect in a cavity containing a magnetic medium. We include the losses due to enclosure window or other sources. The results show that to measure polarization rotation collecting the transmitted light has advantages in terms of linearity and simplicity with respect to collecting the reflected light. We show also the description of a ``commensurate lattice'', to position the atoms at the anti-nodes of the probing light: this increases the atom-light coupling and therefore the cavity enhancement. The trapping light is also used to stabilize the cavity.

Then we describe the experimental realization of the cavity and we demonstrate the theory described by measuring the Faraday rotation in a Rb-87 atomic ensemble in the single-pass and cavity enhanced geometries. We observe the enhancement given by the cavity in good agreement with the theoretical predictions. We also demonstrate shot-noise-limited operation of the enhanced rotation scheme in a small angle regime.

We conclude with the expected squeezing effect given by the cavity in a cold and ultra-cold ensembles. The cavity tested gives a measurement squeezing 5 dB larger with respect to the SP case.

 

Comissió de Tesi:

Prof. Dr. Leticia Tarruell, ICFO

Prof. Dr. Rainer Dumke, Nanyang Technological University

Prof. Dr. Onur Hosten, Institute of Science and Technology (IST)