ADC’s Short Profile

Andrea Di Carli obtained his master degree in 2015 in Rome working on a bright source of polarization-entangled photon pairs. In the same year he moved to Glasgow where he joined the group of Dr. Elmar Haller, University of Strathclyde, as a PhD student with the goal of designing and building an experimental apparatus for generating Bose-Einstein condensates (BECs) of Caesium. During his PhD, he focused his studies on atomic interferometry and matter-wave solitons. In 2019, he joined the group of Prof. Stefan Kuhr as a research associate to develop a Rubidium-87 quantum gas microscope. In particular, he worked on the dynamic control of engineered light potentials for manipulating the lattice filling of multiple arrays of 1D interacting gases.

ADC’s CV at Glance

3/2023 – present
Academy Scientist in the group of Prof. Francesca Ferlaino at Institute for Quantum Optics and Quantum Information (IQOQI), Innsbruck, Austria
2019 – 2023
Reasearch associate in the group of Prof. S. Kuhr
2015 – 2019 PhD at University of Strathclyde under the supervision of Dr E.Haller and Prof. S.Kuhr

Project title: “A tuneable quantum gas for matter wave interferometry and soliton experiments”.

2012 – 2015
Master’s Degree in Physics at Universita’ degli Studi di Roma “La Sapienza”.
2008 – 2012
Bachelor’s Degree in Physics at Universita’ degli Studi di Roma “La Sapienza”.

ADC’s Dipolar Publications

no result found, sorry.

ADC’s Other Publications

[8]Commensurate and incommensurate 1D interacting quantum systems,
Andrea Di Carli, Christopher Parsonage, Arthur La Rooij, Lennart Koehn, Clemens Ulm, Callum W. Duncan, Andrew J. Daley, Elmar Haller, Stefan Kuhr,
Nature Communications, 15, 2024. [more] [pdf] [doi] [arXiv]
[7]Instabilities of interacting matter waves in optical lattices with Floquet driving,
A. Di Carli, R. Cruickshank, M. Mitchell, A. La Rooij, S. Kuhr, C. E. Creffield, E. Haller,
Phys. Rev. Res., 5, 033024, 2023. [more] [pdf] [doi]
[6]Floquet Solitons and Dynamics of Periodically Driven Matter Waves with Negative Effective Mass,
M. Mitchell, A. Di Carli, G. Sinuco-León, A. La Rooij, S. Kuhr, E. Haller,
Phys. Rev. Lett., 127, 243603, 2021. [more] [pdf] [doi]
[5]Collisionally Inhomogeneous Bose-Einstein Condensates with a Linear Interaction Gradient,
A. Di Carli, G. Henderson, S. Flannigan, C. D. Colquhoun, M. Mitchell, G.-L. Oppo, A. J. Daley, S. Kuhr, E. Haller,
Phys. Rev. Lett., 125, 183602, 2020. [more] [pdf] [doi]
[4]Excitation Modes of Bright Matter-Wave Solitons,
A. Di Carli, C. D. Colquhoun, G. Henderson, S. Flannigan, G.-L- Oppo, A. J. Daley, S. Kuhr, E. Haller,
Phys. Rev. Lett., 123, 123602, 2019. [more] [pdf] [doi]
[3]Interferometric measurement of micro-g acceleration with levitated atoms,
A Di Carli, C. D. Colquhoun, S. Kuhr, E. Haller,
New Journal of Physics, 21, 053028, 2019. [more] [pdf] [doi]
[2]Note: A simple laser shutter with protective shielding for beam powers up to 1 W,
C. D. Colquhoun, A. Di Carli, S. Kuhr, E. Haller,
Review of Scientific Instruments, 89, 126102, 2018. [more] [pdf] [doi]
[1]Amending entanglement-breaking channels via intermediate unitary operations,
Á. Cuevas, A. De Pasquale, A. Mari, A. Orieux, S. Duranti, M. Massaro, A. Di Carli, E. Roccia, J. Ferraz, F. Sciarrino, P. Mataloni, V. Giovannetti,
Phys. Rev. A, 96, 022322, 2017. [more] [pdf] [doi]