Ms. Antony Vidhu Catherine

05/2021 – today PhD Student on BEC1

Vidhu did her Bachelor of Science (Physics, Mathematics, Computer Science – Triple Major) at Bangalore University (Wiki), from which she graduated second of her class (Gold Medalist).  

During the final year of her Bachelor’s Program, she was selected for the prestigious Indian Academy of Science (IASc) – Summer Research Fellowship Program (SRFP) – 2017 at the Quantum Materials and Devices Group (formerly known as the Low-Temperature Nano-Electronics Group), Department of PhysicsIndian Institute of Science, Bangalore, under Prof Arindam Ghosh. 

After working as a Project Trainee in the same group, she continued with her Master of Science (Physics) at Bangalore University and graduated top of her class (Gold Medalist). Her master’s project was on Quantum Computation, Estimating Pi using Quantum Phase Estimation Algorithm, which she runs on the public access quantum computer of IBM (Qiskit)

Following her masters, she joined as a Project Assistant / Junior Research Fellow (JRF) at the Quantum Optics and Quantum Information Processing Group, Department of Instrumentation and Applied Physics, Indian Institute of Science, Bangalore. 

At the moment she is awaiting her visa which has been delayed due to COVID restrictions.

Office Phone: (+30)2810 39 1545
Lab Phone: (+30)2810 39 1545
Fax: B003
Email: vpareek@iesl.forth.gr
Webpage: https://www.bec.gr/pareek/
Mr. Pareek Vinay
Lab Phone: (+30) 2810 39 1545
Fax: B003
Email: Vishnupriya@iesl.forth.gr
Webpage: https://www.bec.gr/vishnupriya-puthiya-veettil/
Ms. Puthiya Veettil Vishnupriya

10/2020 – today PhD Student on BEC 1

Vishnupriya has joined us in October 2020 to work on our BEC 1 machine. She will study coherence in MatterWave optics. 

She joins us from the International School of Photonics of the Cochin University of Science and Technology, India She did her Master thesis project at the Raman Research Institute in Bangalore, India.

 

home made dual purpose workstation for LIFT and surface processing

Submitted by on Thu, 05/27/2021 - 15:54

This workstation has a dual purpose:

(i) Laser-induced Forward Transfer of thin film spots on a variety of substrates.

(ii) Surface irradiation and micro-/nanoprocessing on a variety of solid surfaces.

The input to this workstation is a Ti:Sapphire laser amplifier at 785 nm, 25 fs, <0.8 mJ per pulse and its secondary sources.

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