Experience

Quantum Machines

• Israel
• Computer Hardware Manufacturing
• 100 - 200 Employee

• Research Scientist

  • Aug 2022 - Present



QDevil

• Denmark
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Scienziato sviluppo prodotti

  • Mar 2022 - Present



Princeton University

• United States
• Higher Education
• 700 & Above Employee

• Postdoctoral Researcher

  • Jan 2021 - Mar 2022

  I am working as a postdoc for the development of flip-chip technology in the field of spin qubit. The goal is to achieve strong coupling between microwave photons and single electron spins. This is an essential step for the implementation of a large scale quantum computer. I am working as a postdoc for the development of flip-chip technology in the field of spin qubit. The goal is to achieve strong coupling between microwave photons and single electron spins. This is an essential step for the implementation of a large scale quantum computer.



Niels Bohr Institute, University of Copenhagen

• Denmark
• Research Services
• 100 - 200 Employee

• PhD student

  • Nov 2016 - Jan 2021

  At the Center for Quantum Devices I am focusing on the study of low-temperature operation of Si/SiGe double and triple quantum dot devices as spin qubits, with the goal of demonstrating two-qubit gates in scalable geometries. In order to implement manipulation of qubits I use fast gate control, which requires the generation of electrical pulses on a nanosecond scale. Read-out is based on spin-to-charge conversion, which allows the detection of a spin based information as an electrical signal. I implement a radio frequency reflectometry technique that allows single-shot read-out at integration times on the order of a few microseconds. Show less



HFML-FELIX

• Netherlands
• Research Services
• 1 - 100 Employee

• Student

  • Feb 2016 - Jul 2016

  I investigated the magnetotransport properties of graphene. In the initial part of the research, I focused on the production of hBN/graphene/hBN Van der Waals heterostructures, starting from the exfoliated materials. Afterwards, I designed the devices that have been investigated in high magnetic field. Simultaneously, I had the opportunity to characterize CVD graphene samples produced by an external company. I investigated the magnetotransport properties of graphene. In the initial part of the research, I focused on the production of hBN/graphene/hBN Van der Waals heterostructures, starting from the exfoliated materials. Afterwards, I designed the devices that have been investigated in high magnetic field. Simultaneously, I had the opportunity to characterize CVD graphene samples produced by an external company.



Elettra Sincrotrone Trieste

• Italy
• Research Services
• 200 - 300 Employee

• Student

  • Jul 2014 - Jul 2014

  Study of the M4 and M5 edges of CeO_2 in presence of either Ag or Cu dopant. XPS and XANES techniques have been used to perform the analysis. Study of the M4 and M5 edges of CeO_2 in presence of either Ag or Cu dopant. XPS and XANES techniques have been used to perform the analysis.