Filippo Troiani

Short Bio

He graduated in Physics at the University of Rome "La Sapienza" in 1998, with a mark of 110/110 cum laude. In 2002 he obtained the PhD in Physics at the University of Modena and Reggio Emilia. His professional experience includes periods at the Universidad Autonoma of Madrid and at the University of Basel. He's currently Senior Researcher at the Istituto Nanoscienze of CNR.

 

His scientific activity has been mainly focused on the modelling and simulation of low-dimensional systems (especially semiconductor nanostructures and magnetic molecules) and on their use for the implementation of quantum information processing.

 

He has co-authored more than 100 scientific papers on international journals. He has participated to several scientific projects, at both national and European level.

Research Interests

His current research interests include:

  • spin qubits with silicon and germanium quantum dots;
  • spin-electric control in molecular nanomagnets;
  • entanglement in fermionic systems;
  • simulation of ultrafast processes in light-harvesting systems;
  • spin-based quantum sensing and metrology;
  • quantum state discrimination in electron microscopy;
  • semiconductor-based quantum optics.

Selected Recent Projects

Quantum Computing for Computational Chemistry and Materials Science (PRIN 2022)
National Quantum Science and Technology Institute (NQSTI) https://nqsti.it/
Integrated Qubits Towards Future High-Temperature Silicon Quantum Computing Hardware Technologies (FET Open, terminated in 2024) https://www.iqubits.eu/
Multiphoton Microscopy and Ultrafast Spectroscopy: Imaging meets Quantum (MSCA-ITN, terminated in 2024) https://www.musiq-etn.eu/

Selected Publications

Genuine multipartite entanglement from many-electron systems. F. Troiani, C. Angeli, A. Secchi, and S. Pittalis. arXiv:2410.11314 (2024).

 

Vibronic Coupling Drives the Ultrafast Internal Conversion in a Functionalized Free-Base Porphyrin. V. Petropoulos, P. S. Rukin, F. Quintela, M. Russo, L. Moretti, A. Moore, T. Moore, D. Gust, D. Prezzi, G. D. Scholes, E. Molinari, G. Cerullo, F. Troiani, C. A. Rozzi, and  M. Maiuri. The Journal of Physical Chemistry Letters 15, 4461 (2024).

 

Observation of spin-electric transitions in a molecular exchange qubit. F. Mardelé, I. Mohelský, J. Wyzula, M. Orlita, P. Turek, F. Troiani, A. K. Boudalis. arXiv:2403.11214 (2024).

 

Envelope-function theory of inhomogeneous strain in semiconductor nanostructures. A. Secchi and F. Troiani. Physical Review B 110, 045420 (2024).

 

Giant Rabi frequencies between qubit and excited hole states in silicon quantum dots. E. Fanucchi, G. Forghieri, A. Secchi, P. Bordone, and F. Troiani. arXiv:2411.05526 (2024).