Terahertz Resonance Fluorescence of a Spherical Gaussian Quantum Dot
محورهای موضوعی : فصلنامه نانوساختارهای اپتوالکترونیکیBehrooz Vaseghi 1 , Ghasem Rezaei 2 , Nasim Mohammadi 3 , Shakiba Mardani 4
1 - Department of Physics, College of Sciences, Yasouj University, Yasouj, Iran
2 - Department of Physics, College of Sciences, Yasouj University, Yasouj,
3 - Department of Physics, College of Sciences, Yasouj University, Yasouj, Iran
4 - Department of Physics, College of Sciences, Yasouj University, Yasouj, Iran
کلید واژه: RFS, Correlation Function, External Factors,
چکیده مقاله :
Resonance fluorescence and related correlation functions of a spherical quantum dot with Gaussian confinement potential and doped hydrogen like impurity is studied. Similar to atomic systems we can see the resonance fluorescence with different photon statistics in the system. The results indicate that the physical parameters of the quantum dot significantly influence both the resonance spectrum and correlation functions.
The possibility of controlling the fluorescence phenomena via external parameters and dot engineering is an important result of the current study.
Resonance fluorescence and related correlation functions of a spherical quantum dot with Gaussian confinement potential and doped hydrogen like impurity is studied. Similar to atomic systems we can see the resonance fluorescence with different photon statistics in the system. The results indicate that the physical parameters of the quantum dot significantly influence both the resonance spectrum and correlation functions.
The possibility of controlling the fluorescence phenomena via external parameters and dot engineering is an important result of the current study.
Resonance fluorescence and related correlation functions of a spherical quantum dot with Gaussian confinement potential and doped hydrogen like impurity is studied. Similar to atomic systems we can see the resonance fluorescence with different photon statistics in the system. The results indicate that the physical parameters of the quantum dot significantly influence both the resonance spectrum and correlation functions.
The possibility of controlling the fluorescence phenomena via external parameters and dot engineering is an important result of the current study.
Resonance fluorescence and related correlation functions of a spherical quantum dot with Gaussian confinement potential and doped hydrogen like impurity is studied. Similar to atomic systems we can see the resonance fluorescence with different photon statistics in the system. The results indicate that the physical parameters of the quantum dot significantly influence both the resonance spectrum and correlation functions.
The possibility of controlling the fluorescence phenomena via external parameters and dot engineering is an important result of the current study.