• JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
  • JoomlaWorks Simple Image Rotator
 
  Bookmark and Share
 
 
Master's Dissertation
DOI
https://doi.org/10.11606/D.76.2005.tde-11112013-102236
Document
Author
Full name
Dulce Cristina Jacinto Rezende
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2005
Supervisor
Committee
Marcassa, Luis Gustavo (President)
Oliveira, Samuel Leite de
Paixão Filho, Fernando Jorge da
 
Title in Portuguese
Plasma ultrafrio em armadilha atômica
Keywords in Portuguese
Amostras frias
Plasma ultrafrio
Abstract in Portuguese
Neste trabalho nós produzimos um plasma neutro ultrafrio de 85Rb através da fotoionização dos átomos aprisionados em uma armadilha magneto-óptica. Medimos o número de partículas que evaporam do plasma no momento de sua criação usando a técnica de tempo-de-vôo. A partir disto realizamos o estudo da taxa de evaporação com relação a energia cinética inicial do elétron fornecida ao sistema, onde para isto criamos o plasma com diferentes comprimentos de onda do laser de fotoinização. Nossos resultados indicam que conforme fornecemos mais energia ao sistema mais partículas evaporam e constatamos que está de acordo com a literatura. Interpretamos o resultado com um modelo analítico que considera a distribuição de energia de Maxwell-Boltzmann e encontramos a temperatura do plasma com relação a temperatura inicial dos elétrons
 
Title in English
Ultracold plasma in a magneto optical trap
Keywords in English
Cold samples
Ultracold plasma
Abstract in English
In this work we produced an ultracold neutral plasma of 85Rb formed by the photoionization of laser-cooled atoms. We measured the number of particles evaporated from the plasma in the moment of its formation using the time-of-flight technique. After this, we studied the evaporation rate as a function of the initial electron kinetic energy, for this we created the plasma at different wavelengths of the photoinization laser. Our results indicate that as we supplied more energy to the system more particles evaporate and we verified that it is in agreement with the literature. We interpreted the result with an analytic model that considers the Maxwell-Boltzmann energy distribution and we found the plasma temperature as a function initial electron temperature
 
WARNING - Viewing this document is conditioned on your acceptance of the following terms of use:
This document is only for private use for research and teaching activities. Reproduction for commercial use is forbidden. This rights cover the whole data about this document as well as its contents. Any uses or copies of this document in whole or in part must include the author's name.
DulceRezendeM.pdf (2.18 Mbytes)
Publishing Date
2013-11-18
 
WARNING: Learn what derived works are clicking here.
All rights of the thesis/dissertation are from the authors.
CeTI-SC/STI
© 2001-2024. Digital Library of Theses and Dissertations of USP.