Ytterbium-dotierte Borate und Vanadate mit grosser Verstärkungsbandbreite als aktive Materialien im Scheibenlaser

Kränkel, Christian

January 2008

Zugl.: Hamburg, Univ., Diss., 2008

Concentration Quenching Effect in Rare-earth Doped Glasses

Xia, Chun, Xia, Chun

January 2017

Concentration quenching effect in ytterbium (Yb) and neodymium (Nd) doped phosphate glasses, thulium (Tm) doped germanate glass, and praseodymium (Pr) doped tellurite glass were studied. The fluorescence and lifetime of these rare-earth doped glasses with different concentrations were measured. Ion pair and clustering are included in the model to explain the quenching effect occurring in highly doped glasses. This study will help us in designing and fabricating high unit gain optical fibers.

concentration quenching

Neodymium

phosphate

Praseodymium

tellurite

Ytterbium

A Study of the Decay Levels of 169/Tm69

Harris, Robert J.

12 1900

The purpose of this investigation was to study the radiations of the 169/Tm nucleus as it de-excites after the electron capture decay of the 169/Yb. Numerous unreported gammas were present in the sample. The origins of these gamma rays were found.

Ytterbium

Thulium

electron capture

gamma rays

physics

New techniques and data acquisition for nuclear spectroscopy at the laser-IGISOL

Kelly, Sam

January 2018

Nuclear and laser spectroscopy measurements have been conducted at the Ion Guide Isotope Separator On-Line, IGISOL-IV, JYFL laboratory, Jyvaskyla. Nuclear moments have been extracted for two ground and two isomeric states of neutron deficient yttrium, 85g,mY and 86g,mY. The mean square charge radii and moments have been extracted for all states, providing, for the first time, estimates of static and dynamic quadrupole deformations in these shape transitioning nuclei. A second laser spectroscopy experiment yielded the frequency shifts between all stable isotopes of ionic ytterbium in exotic (high-lying metastable) resonance lines. Atomic field and mass shift parameters in these (high purity) transitions have been evaluated. A discussion of the impact these parameters may have on the chemical homologue, nobelium, is presented. New measurements of charge-state dependent IGISOL fission production yields (of strontium, yttrium and zirconium) are reported in this thesis. For the first time, charge state dependent effects in relative isomeric to ground state production have been detected. Possible explanations for, and exploitation of, this unexpected phenomenon is presented. A new data acquisition (DAQ) system has been built at The University of Manchester. It has been designed to fully replace the current setup used for laser spectroscopy at the JYFL laboratory. The new hardware has been extensively tested off-line and is ready to be installed at the laser-IGISOL. To work in conjunction with the new DAQ, two graphical user interfaces (GUIs) have been created, to display and sort data online, and permit efficient data extraction. Both have been shown to perform at the level required for experimental on-line use. An updated report on the status of an electrostatic ConeTrap is presented. Improved (more realistic) simulations are now seen to be capable of reproducing experimentally observed results. Further computational effort on the ion optics has shown that improved containment and transport efficiency can be readily achieved. A new trap, featuring a larger rear electrode, promises a greatly increased ion survival. The next commissioning phase will see the construction and installation of this upgraded ConeTrap.

500

Ytterbium-dotierte Sesquioxide als hocheffiziente Lasermaterialien

Peters, Rigo

January 2009

Zugl.: Hamburg, Univ., Diss., 2009

Ytterbium-Doped Microsphere Lasers

Michael Dalley

Unknown Date

This thesis covers the construction and characterisation of microlasers based on whispering gallery modes in ytterbium-doped microsphere resonators. The microlasers were made by drawing and fusing Yb-doped silica optical fibre into microspheres of approximately 100 μmin diameter using CO2 laser-induced melting. Access to whispering gallery modes was accomplished using a prism coupled to the evanescent field of the internal cavity modes. Microspheres with Q-factors of up to 10^7 were made using this technique. CW multimode lasing was observed at 1050 nm, with a pump threshold required for lasing estimated to be of the order of 100 μW for a 900 nm pump. Both TE and TM modes were identified in the laser emission and the ability to selectively excite each mode family (TE or TM) is shown to be directly controlled by the pump. Pulsed lasing was also observed at 975 nm and 1050 nm.

microsphere

whispering gallery mode

silica

ytterbium

microlaser

Spectroscopic analysis of erbium-doped silicon and ytterbium-doped indium phosphide

Gersdorf, Ingrid.

January 2001

Proefschrift Universiteit van Amsterdam. / Met lit. opg. - Met samenvatting in het Nederlands.

Yb-doped femtosecond lasers and their frequency doubling /

Sarmani, Abdul Rahman.

January 2008

Thesis (Ph.D.) - University of St Andrews, November 2008.

Estudo das propriedades estruturais e ópticas do sistema vítreo 80TeO2-20WO3 dopado com Yb2O3

Gordo, Vanessa Orsi [UNESP]

28 June 2010

Made available in DSpace on 2014-06-11T19:25:33Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-06-28Bitstream added on 2014-06-13T18:28:59Z : No. of bitstreams: 1 gordo_vo_me_ilha.pdf: 1058796 bytes, checksum: 2c8438704796726349dfe606c2595b4b (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Neste trabalho foi estudado o sistema vítreo (100-x)% (80% TeO2-20% WO3)-(x)% Yb2O3, onde x = 0; 0,1; 0,2; 0,3; 0,4 e 0,5%. As técnicas de difração de raios-X, espectroscopia no infravermelho, espectroscopia Raman e espectroscopia no UV-Vis foram usadas para caracterizar os efeitos da dopagem sobre as propriedades estruturais e ópticas dos vidros estudados. Usando os dados de espectroscopia na região espectral ultravioleta-visível foi possível observar que não houve mudança das freqüências de corte para cada composição e ainda calcular a energia de “gap” e a energia de cauda de Urbach. Usando os dados de fotoluminescência observam-se picos que indicam o desdobramento dos níveis de energia dos estados 2F7/2 e 2F5/2 dos íons de Yb3+. Para os comprimentos de onda de excitação de 514,5 a 488,0 nm, crescem as taxas de absorção do sistema vítreo TW, transferência de carga para o estado 2F5/2 do Yb3+ e da transição radiativa 2F5/2 2F7/2, aumentando, desta forma, a intensidade da fotoluminescência. Já para os comprimentos de onda de excitação 457,9 e 476,5 nm as taxas de absorção do sistema vítreo TW, a transferência de carga para o estado 2F5/2 do Yb3+ e a transição radiativa 2F5/2 2F7/2 são as mesmas e, consequentemente, a intensidade da fotoluminescência é constante. / This work presents the study on the glassy system (100-x)% (80% 20% TeO2-WO3) - (x)% Yb2O3 where x = 0, 0.1, 0.2, 0.3, 0.4 and 0 5%. The techniques of X-ray diffraction, infrared spectroscopy, Raman spectroscopy and UV-Vis were used to characterize the effects of Yb doping on the structural and optical properties of the glasses. Using data from spectroscopy ultraviolet-visible spectral region was observed that there was no change of cutting frequencies for each compound and were calculate the energy gap and Urbach tail energy. Using the data of photoluminescence peak is observed indicating the splitting of energy levels of states 2F7/2 and 2F5/2 of Yb3+ ions. The rate of electron transition probability is influenced by temperature. To the excitation wavelength of 514.5 to 488.0 nm, growing rates of absorption of the glass system TW, charge transfer to the state 2F5/2 of Yb3+ and the radiative transition 2F5/2 2F7/2, increasing thus the photoluminescence intensity. As for the excitation wavelength of 476.5 and 457.9 nm absorption rates of the TW glass system, the charge transfer state to the 2F5/2 of Yb3+ and the radiative transition 2F5/2 2F7/2 are the same and, hence the photoluminescence intensity is constant.

Vidro

Telurio

Itérbio

Glass

Doping

Tellurium and ytterbium

Caractérisation et réduction de la gigue temporelle de lasers ytterbium ultrabrefs pompés par diode / Timing jitter characterization and control of ultrafast diode pumped Ytterbium lasers

Casanova, Alexis

21 December 2017

Ce travail de thèse se concentre sur la caractérisation et la correction de la gigue temporelle de lasers ultrabrefs, c'est-à-dire avec une durée d'impulsion sub-picoseconde, pompés par diode et avec un milieu à gain dopé à l'Ytterbium. Ce type de source laser a bénéficié d'un développement industriel rapide depuis le début des années 2000 et a trouvé de très nombreuses applications, notamment dans le domaine scientifique pour des expériences résolues en temps (FELs, accélérateurs de particules, OPAs...). Dans ce type d’applications, la réduction de la gigue des impulsions permet d’accéder à de meilleures résolutions temporelles et permet d’observer des phénomènes physiques extrêmement brefs.Dans ce travail, la gigue d'oscillateurs lasers ultrabrefs à verrouillage de mode passif a été corrigée et caractérisée en générant un signal d'erreur par photo-détection directe d'une part et par corrélation croisée optique d'autre part. La correction de la gigue temporelle par corrélation croisée optique permet d'obtenir une gigue résiduelle inférieure à 5fs, de l'ordre de la durée d'un cycle optique, avec des oscillateurs compacts et industriels. Une gigue résiduelle de ce niveau permet d’accéder à des expériences résolues en temps exigeantes en termes de stabilités temporelles des sources de lumière utilisée, par exemple une expérience d’interaction lumière-matière de type pompe-sonde avec une source laser à électrons libres.Un nouvel instrument basé sur la corrélation statistique des signaux de gigue générés par deux canaux de corrélations croisées optiques a été mis en place. Un tel instrument a permis de caractériser complètement la gigue temporelle d'oscillateurs à des fréquences de Fourier supérieures à la dizaine de kiloHertz lasers ultrabref en atteignant un plancher de bruit sub-zeptoseconde. La gigue additive d'amplificateurs lasers ultrabrefs a également été caractérisée par corrélation croisée optique, cela afin d'acquérir une compréhension globale de la gigue introduite par une chaîne laser ultrabrève amplifiée.Les mesures effectuées ont permis d’analyser les origines physiques de la gigue dans un système laser ultrabref. Ces résultats permettront à terme d’améliorer la correction de la gigue sur les systèmes industriels étudiés ainsi que de développer de nouvelles sources laser ultrabrèves intrinsèquement moins bruyantes. Une telle étude expérimentale pourra également servir de support pour éventuellement enrichir le modèle théorique des perturbations dans un laser ultrabref. / The main scope of this PhD work is to characterize and reduce the timing jitter of optical pulses with sub-picosecond duration, emitted by diode-pumped ultrafsat lasers with Ytterbium doped gain media. Such laser sources have been rapidly enhanced by a high-grade and efficient industrial development, giving access to numerous novel applications, especially in the fields of applied physics and chemistry with time-resolved experiments based on interaction between light and matter. In this latter topic resides a constant need to minimize the laser pulse train timing jitter in order to access physical phenomena with extremely short timescales such as electrons recombination.Two main detection techniques have been studied to characterize the timing jitter from passively modelocked laser oscillators. The first technique is based on direct photo-detection in the microwave domain whilst the second technique makes use of the balanced optical cross-correlation. Residual timing jitter from industrial compact laser oscillators has been reduced below 5fs, close to an optical cycle period. This performance makes the laser oscillators produced by Amplitude-Systemes already suitable for challenging time-resolved pump-probe experiments, in the presence for example of a free electron laser source.Timing jitter analysis has been enhanced by studying the cross-spectrum from jitter signals generated from two balanced optical cross-correlators. This technique allowed the entire characterization of the timing jitter density spectrum from laser oscillators above the ten-kiloHertz Fourier frequency with a sub-zeptosecond noise floor. Additive timing jitter from ultrafast laser amplifiers has also been studied with optical cross-correlation and gives a global comprehension of the timing jitter from a complete high-energy ultrafast laser chain.The collected measurments will be conducive to design a more adapted and performant timing synchronization system for industrial laser sources. A better knowledge of the non-trivial jitter sources, dependent on the laser parameters, will also allow to design intrinsically low-noise new laser sources based on the Ytterbium gain media. The cross-spectrum technique developed could be of use to characterize other laser technologies and to investigate the theoretical perturbation model of ultrafast lasers with a better experimental insight.

Lasers

Gigue

Bruit

Ultrabref

Métrologie

Ytterbium

Lasers

Jitter

Noise

Ultrafast

Metrology

Ytterbium