Optimalizace experimentálních parametrů v sestavě dvoupulzní LIBS / Optimisation of experimental parameters for double-pulse LIBS

Roščák, Michal

January 2010

Diploma thesis presents the description of laser induced breakdown spectroscopy (LIBS) analytical method. The possibility to decrease LIBS detection limits using double pulse LIBS (DP-LIBS) is also detailed. Properties of laser induced plasma (LIP) are discussed. Thesis describes the optimisation process of DP-LIBS setup at laser spectroscopy laboratory of Faculty of Mechanical Engineering, Brno University of Technology. Optimisation was carried out for detection of chrome in steel with respect to detection limits and ablation crater size. Optimised DP-LIBS setup is appropriate for mapping chrome distribution in steel samples.

Temperature Dependence of Fluorescence Spectra in Some Common Polymers

Nepal, Suman

January 2017

No description available.

Physics

Probing the denatured state ensemble with fluorescence

Alston, Roy Willis

30 September 2004

To understand protein stability and the mechanism of protein folding, it is essential that we gain a better understanding of the ensemble of conformations that make up the denatured state of a protein. The primary goal of the research described here was to see what we might learn about the denatured state using fluorescence. To this end, tryptophan was introduced at five sites in Ribonuclease Sa (RNase Sa): D1W, Y52W, Y55W, T76W, and Y81W. The fluorescent properties of the denatured states of these five proteins were studied and compared to the fluorescent properties of eight model compounds: N-acetyl-tryptophan-amide (NATA), N-acetyl-Ala-Trp-Ala-amide (AWA), N-acetyl-Ala-Ala-Trp-Ala-Ala-amide (AAWAA), and five pentapeptides based on the sequence around the original tryptophan substitutions in RNase Sa. Regardless of the denaturant, λmax for the proteins and model compounds differed very little, 349.3 ± 1.2 nm. However, significant differences were observed in the fluorescence intensity at λmax (IF), suggesting that IF is more sensitive to the immediate environment than λmax. The differences in IF are due in part to quenching by neighboring side chains. More importantly, IF was always significantly greater in the protein than in its corresponding pentapeptide, indicating that the protein exerts an effect on the tryptophan, which cannot be mimicked by the pentapeptide models. Acrylamide and iodide quenching experiments were also performed on the model compounds and proteins. Significant differences in the Stern-Volmer quenching constant (KSV) were also observed between the proteins and between the proteins and their corresponding pentapeptides. Importantly, the KSV for the protein was always less than in its corresponding pentapeptide. These data along with the IF data show that non-local structure in the unfolded state influences tryptophan fluorescence and accessibility. In summary, these and our other studies show that fluorescence can be used to gain a better understanding of the denatured states of proteins.

protein folding

fluorescence

quenching

anisotropy

circular dichroism

emission spectra

Probing the denatured state ensemble with fluorescence

Alston, Roy Willis

30 September 2004

To understand protein stability and the mechanism of protein folding, it is essential that we gain a better understanding of the ensemble of conformations that make up the denatured state of a protein. The primary goal of the research described here was to see what we might learn about the denatured state using fluorescence. To this end, tryptophan was introduced at five sites in Ribonuclease Sa (RNase Sa): D1W, Y52W, Y55W, T76W, and Y81W. The fluorescent properties of the denatured states of these five proteins were studied and compared to the fluorescent properties of eight model compounds: N-acetyl-tryptophan-amide (NATA), N-acetyl-Ala-Trp-Ala-amide (AWA), N-acetyl-Ala-Ala-Trp-Ala-Ala-amide (AAWAA), and five pentapeptides based on the sequence around the original tryptophan substitutions in RNase Sa. Regardless of the denaturant, λmax for the proteins and model compounds differed very little, 349.3 ± 1.2 nm. However, significant differences were observed in the fluorescence intensity at λmax (IF), suggesting that IF is more sensitive to the immediate environment than λmax. The differences in IF are due in part to quenching by neighboring side chains. More importantly, IF was always significantly greater in the protein than in its corresponding pentapeptide, indicating that the protein exerts an effect on the tryptophan, which cannot be mimicked by the pentapeptide models. Acrylamide and iodide quenching experiments were also performed on the model compounds and proteins. Significant differences in the Stern-Volmer quenching constant (KSV) were also observed between the proteins and between the proteins and their corresponding pentapeptides. Importantly, the KSV for the protein was always less than in its corresponding pentapeptide. These data along with the IF data show that non-local structure in the unfolded state influences tryptophan fluorescence and accessibility. In summary, these and our other studies show that fluorescence can be used to gain a better understanding of the denatured states of proteins.

protein folding

fluorescence

quenching

anisotropy

circular dichroism

emission spectra

Optical properties of microcavities and patterned waveguides

Culshaw, Ian Stephen

January 2000

No description available.

621.381045

Threshold characteristics of multimode laser oscillators

Khoshnevissan, Mehdi

01 January 1987

The threshold characteristics of multimode laser oscillators are considered in detail, and a new model is given for semiconductor diode lasers. Analytical expressions and numerical solutions are obtained for mode amplitudes, and over-all spectral characteristics of lasers operating above and below threshold. The theoretical results are i n agreement with experimental data. The band-ta-band absorption is included in the model and i t ' s effect is studied on the mixed broadening.

Emission Spectra

Line Broadening

Line Widths

Threshold Energy

Electrical and Computer Engineering

Control of gain in conjugated polymers and perylene dyes

Sheridan, A. K.

January 2001

This thesis presents an investigation into the factors which control the gain and amplification properties in conjugated materials. Conjugated polymers and perylene dyes are highly fluorescent, are easy to process into thin films, and exhibit strong amplification over a broad gain bandwidth making them ideal for use in lasers and amplifiers. The stimulated emission created when thin films of the red emitting polymer poly(2-methoxy-5-(2'-ethylhexyloxy)- p-phenylenvinylene) (MEH-PPV) were photoexcited with high energy laser pulses was investigated. This was characterised by a dramatic narrowing of the emission spectrum which has been assigned to amplified spontaneous emission (ASE). The emission was found to have a gaussian profile and the gain coefficient was found to be 4 cm-1.The temperature dependence of the absorption, photoluminescence and ASE of films of MEH-PPV was measured. The effect of film morphology on the photophysical properties was investigated by using films cast from two spinning solvents, chlorobenzene (CB) and tetrahydrofuran (THE). Film morphology was found to greatly affect the temperature dependence. A particularly important property is the spectral position of the ASE and the factors which affect it. By controlling the film thickness close to the cut-off thickness for waveguiding in the polymer film it was shown that the peak position of the ASE could be tuned by 31 nm. Modelling of the waveguide modes in the polymer films was used to explain this effect. The cut-off wavelength for each film was measured and good agreement with the theory was found. In order to investigate ways in which energy transfer could be used to control the emission, two perylene dyes were used as a donor-acceptor pair in a host matrix of poly methymethacralate (PMMA). The position of the ASE was found to depend on the acceptor concentration. Measurements of the photoluminescence quantum yield and time-resolved luminescence measurements showed that the energy transfer coefficient was 5x10(^11)mol(^-1)d(^3)

530.41

Luminescence spectroscopy of CdTe/CdS based photovoltaic devices and associated materials

Potter, Mark David George

January 2000

This thesis contains primarily a study of CdTe/CdS heterojunction solar cells^ chiefly using photoluminescence spectroscopy. These solar cells show a good potential for commercial power generation in the near Aiture and are of interest to several major companies. A vital but little understood step in the manufacturing process is: annealing the cells in the presence of chlorine prior to back contact application. Studies are performed on a selection of thin film CdTe/CdS cells subjected to CdCl(_2) anneals of different duration. A chemical bevel etch was used to study the spectra at different depths into the sample and laser intensity arid sarhple temperature variations to identify the mechanisms behind the observed photoluminescence peaks. Evidence was found for the CdCl(_2) anneal promoting sulphur diffusion and subsequent grain boundary passivation in the CdTe, leading to increased minority carrier lifetimes and device efficiencies Attempts to obtain electroluminescence from the CdTe/CdS solar cells were madei By using current pulses electroluminescence was obtained in the 780-850nm range with discernible spectral features. Photoluminescence (PL) studies were also performed on a single crystal of CdTe grown to an unprecedented size of approx. 5 cm diameter at Durham university by a multi-tube seeded vapour method of crystal growth. Much higher resolution spectra were: obtained for this than for the solar cells. Several peaks were identified arid the mechanisms responsible were theorised. By taking slices of the crystal boule the PL spectra at different points-throughout the bulk of the crystal were determined. A series of high quality ion-implanted CdTe crystals were also studied! by intensity and temperature dependent PL in order to obtain a better understanding of the effects of known concentrations of known impurities on the PL spectra of CdTe. Specific PL features associated with certain dopants were observed.

530.41

Studium doutnavého výboje v kyslíku a jeho směsích za středních tlaků / Study of Glow Discharge in Oxygen and its Mixtures at Medium Pressures

Schmiedt, Lukáš

January 2016

Title: Study of Glow Discharge in Oxygen and its Mixtures at Medium Pressures Author: Lukáš Schmiedt Department: Department of Surface and Plasma Science Supervisor: Doc. RNDr. Věra Hrachová, CSc. Department of Surface and Plasma Science Abstract: The positive column of DC glow discharge sustained in oxygen and oxygen-argon mixtures has been studied in two discharge tubes of the same shape made from different materials (Silica and Pyrex glass) for total pressures 200 - 1750 Pa and discharge currents up to 40 mA. Parameters of the discharge - electric field strength and emission spectra - were studied with respect to existence of the low- and high-gradient forms of the positive column of the discharge. We have focused on the qualitative analysis of the differences in emission spectra for both particular forms, as well as on possibility of determination of the rotational temperature of oxygen molecule under various discharge conditions, particularly with respect to the relative amount of the admixture. Keywords: glow discharge; oxygen; medium pressures; emission spectra

Časově rozlišená fluorescence ve výzkumu kapalných a kondenzovaných systémů na bázi biopolymer-tenzid. / Time-resolved fluorescence study of liquid and condensed systems based on biopolymer-surfactant interactions.

Černá, Ladislava

January 2014

This thesis studies properties of hydrogel, which arises on the basis of electrostatic and hydrophobic interactions between hyaluronan chain and micelles of cationic surfactant. A native sodium hyaluronan at molecular weight 750–1 000 kDa and a cationic surfactant CTAB (cetyltrimethylammonium bromide) were used. This hydrogel was assessed as a material for drug delivery systems. The hydrogels were made by mixing 200mM CTAB with 0.5% hyaluronan, both dissolved in 0.15M aqueous solution of NaCl simulating physiological solution. Methods used in this study were steady-state and time-resolved fluorescence spectroscopy, more accurately time-resolved emission spectra (TRES) and deconvolution of steady-state emission spectra of a whole sample by means of parameters gained from fluorescence intensity decays at a set of wavelenghts. Selected systems were investigated by three fluorescent probes, prodan, laurdan and rhodamine 6G. The first two mentioned probes were in hydrogel localized only within micelles in three different microenvironments. Rhodamine 6G pointed out that in hydrogel the aqueous environment is significantly restricted in comparison to purely micellar solution. In addition, rhodamine informed about less available micelle surfaces, caused by hyaluronan chains occupation. There were no interactions between the probes and hyaluronan chains. Freshly made hydrogels showed almost the same results as after a week of maturation under its supernatant.