The complex physics of photoinduced charge carriers in novel materials

PhD type: 
Doctoral School of Physical Sciences
Year: 
2020/2021/1
Unit: 
Department of Physics
Address of unit: 
1111 Budapest, Budafoki út. 8.
Description: 
Controlling material properties with light is an emerging new option including the possibility to control the amount of charge carriers (photoconductivity), the alteration of the magnetic state or the information control and readout in quantum bit systems. We intensively investigate the charge carrier dynamics in pervoskite based photovoltaic materials (methyl ammonium halides), the quantum state control in diamond nitrogen vacancy centers, and the magnetic state. Our experimental tools include microwave detected photoconductivity, magnetic resonance spectroscopy, and combined magneto-optical methods.
 
Requirements: 

Good marks, knowledge of optics and magnetic resonance studies, devotion toward experimental studies

State: 
Végleges
Témavezető
Name: 
Simon Ferenc
Email: 
f.simon@eik.bme.hu
Institute: 
Department of Physics
Assignment: 
professor
Scientific degree: 
PhD, Doctor of the Hungarian Academy of Sciences