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Time resolved spectroscopy of SiV centers in diamond
Hamráček, Karol ; Trojánek, František (advisor) ; Žídek, Karel (referee)
Title: Time-resolved spectroscopy of SiV centers in diamond Author: Karol Hamráček Department: Department of chemical physics and optics Supervisor: doc. RNDr. František Trojánek, Ph.D. Abstract: In recent years, the negatively charged silicon center (SiV-) has become a promising competitor to well-established nitrogen (NV-) due to its excellent spectral properties, such as narrow zero phonon line transitions and weak phonon sidebands, and therefore, research of point defects in diamond is currently receiving a lot of attention. These isolated defects, the so- called color centers, can serve as sources of photons and thus, ultimately, can be used to construct SiV Lasers, whose physical nature is stimulated emission. However, it has not yet been generated at SiV centers. For its generation, it is necessary to examine in detail the radiant and non-radiative processes in optical centers and the properties and parameters of stimulated emission during optical excitation. Also part of the research is the optimization of sample preparation in order to obtain samples with a high concentration of centers and at the same time high optical quality. That is why the aim of this diploma thesis will be to perform optical characterization of diamond samples with SiV centers (supplied by the cooperating department of the...
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Study of properties of ultrashort femtosecond pulses
Hamráček, Karol ; Trojánek, František (advisor) ; Surýnek, Miloslav (referee)
Title: Study of the properties of ultra-short femtosecond pulses Author: Karol Hamráček Department: Department of chemical physics and optics Supervisor: doc. RNDr. František Trojánek, Ph.D. Abstract: Even as a bachelor thesis, the ultra-short pulses produced by the Rainbow CEP4 PRo laser system are about 7 fs long. This implies a very wide spectrum of these pulses, which can be up to 300 nm wide. This is why the ultrashort pulse will be lengthen by passing through a common dispersive medium such as the optical system of the classical optical elements, since each wavelength in the spectrum will propagate differently in the environment and will therefore overtake each other, resp. they will lag behind each other. Our aim will be to study this issue and to deal with the behavior of ultra-short pulses in different media. Keywords: ultra-short pulse, UV area, second harmonic wave
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