Tesis sobre el tema "Dipole trapping"
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Harsono, Andrian. "Dipole trapping and manipulation of ultra-cold atoms". Thesis, University of Oxford, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.437007.
Texto completoLevonian, David (David S. ). "A Cavity-stabilized diode laser for dipole trapping of ytterbium". Thesis, Massachusetts Institute of Technology, 2015. http://hdl.handle.net/1721.1/105998.
Texto completoThis electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.
Cataloged from student-submitted PDF version of thesis.
Includes bibliographical references (pages 99-103).
Bad-cavity lasers using a gain medium with a narrower linewidth than the laser cavity have the potential to achieve very narrow linewidths and extremely long coherence times. Such lasers could serve as active frequency standards or enable very-long-baseline interferometric telescopes at optical frequencies. The 6s6p³P₀ to 6s²¹S₀ ground state transition in ¹⁷¹Yb is a promising candidate for the gain medium of a bad-cavity laser due to its 44 mHz linewidth. For ytterbium to be used efficiently as a gain medium, its inhomogeneous broadening must be suppressed to a level lower than the linewidth of its gain transition. In this thesis, I design, implement, and characterize an optical lattice trap for ytterbium atoms. The trap consists of a diode laser which is frequency stabilized to an adjustable-length cavity where the ytterbium atoms are trapped. The length of this cavity is then locked by comparison of the laser frequency to a stable reference cavity. The resulting standing wave has high enough intensity that the recoil energy of the gain transition is smaller than the energy spacing between motional modes of the trapped atoms. This situation is known as the Lamb-Dicke regime and means that there is an absence of recoil broadening. The large spacing between motional modes of the trap also enables sideband resolved cooling of the atoms, which allows cooling to temperatures of 3 [mu]K, near the ground state of the trapping potential. Additionally, if the wavelength of the optical lattice is chosen to be at the magic wavelength for ytterbium, where the relative AC Stark shift for the two levels of the gain transition is zero to first order, there is no broadening due to varying intensity in the trap. Since the Doppler effect, recoil broadening and the AC Stark shift are the main sources of inhomogeneous broadening, this trapping scheme is expected to suppress inhomogeneous broadening to a level of 1 Hz.
by David Levonian.
M. Eng.
Van, Dongen Janelle. "Simultaneous cooling and trapping of 6Li and 85/87Rb". Thesis, University of British Columbia, 2007. http://hdl.handle.net/2429/351.
Texto completoGatto, Alexandro [Verfasser]. "Trapping fermionic potassium atoms in a quasi-electrostatic optical dipole potential / Alexandro Gatto". Bonn : Universitäts- und Landesbibliothek Bonn, 2012. http://d-nb.info/104408149X/34.
Texto completoWebster, Stephen. "Prospects for Bose-Einstein condensation in caesium : cold collisions and dipole-force trapping". Thesis, University of Oxford, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.325563.
Texto completoBlackhurst, Tyler D. "Numerical Investigation of Internal Wave-Vortex Dipole Interactions". BYU ScholarsArchive, 2012. https://scholarsarchive.byu.edu/etd/3133.
Texto completoKalita, Mukut R. "Search for a Permanent Electric Dipole Moment of 225Ra". UKnowledge, 2015. http://uknowledge.uky.edu/physastron_etds/34.
Texto completoKrasselt, Cornelius. "Dynamik der Photo-Lumineszenz-Unterbrechung von Halbleiter-Nanokristallen in elektrischen Feldern". Doctoral thesis, Universitätsbibliothek Chemnitz, 2015. http://nbn-resolving.de/urn:nbn:de:bsz:ch1-qucosa-172910.
Texto completoKondo, Jorge Douglas Massayuki. "Estudo de colisões entre átomos de Rydberg ultrafrios em amostras atômicas aprisionadas numa armadilha óptica de dipolo". Universidade de São Paulo, 2014. http://www.teses.usp.br/teses/disponiveis/76/76131/tde-03022015-171234/.
Texto completoIn this paper, we study collisions between ultracold Rydberg atoms in a high density atomic sample trapped in an optical dipole trap (ODT), type QUEST (Quasi Electrostatic Trap). Our goals included testing the manifestation of many-body phenomena and to study anisotropy effects in collisional processes involving two Rydberg atoms. In order to do this, we have chosen the collision process described by 5/2+5/2(+2)3/2+(2)7/2 in the range of 37 ≤ ≤47. The process was studied in the presence and absence of a dc static electric field, also known as Förster resonances. The results show that even at high atomic density, two-body interaction dominates de process, despite the clear manifestation of Rydberg blockade. After several improvements in our experimental setup, we have studied also a Förster resonance peak 375/2+375/2393/2+357/2 as a function of the magnitude of the dc static electric field as well as the angle between this field and the longitudinal axis of the ODT. We discuss the results and future challenges of the experiment.
Xiao, Hau-Yl y 蕭豪毅. "Trapping Cold Atoms with an Optical Dipole Trap". Thesis, 2012. http://ndltd.ncl.edu.tw/handle/14163296521974752188.
Texto completoVerde, Maurizio. "Simulation of optical dipole trapping of cold CO molecules". Doctoral thesis, 2020. http://hdl.handle.net/2158/1191549.
Texto completoIhn, Yong-Sup. "Experiment to measure the electron electric dipole moment using laser cooled Cs atoms". 2013. http://hdl.handle.net/2152/21325.
Texto completotext
Chen, Kuo-Yung y 陳國永. "A Study of the Impact of Dipole Engineering and High-k Blocking Layer on Nonvolatile Memories with Nitride and Nanocrystal Trapping Layer". Thesis, 2010. http://ndltd.ncl.edu.tw/handle/09280618674781885796.
Texto completo國立交通大學
電子研究所
99
In this thesis, we first study the influence of the presence of “intrinsic dipole” on the electrical properties of a SONOS-type nonvolatile memory (NVM) by a capacitor structure. The magnitudes of “intrinsic dipole” were extracted by the VFB shift observed in the C-V curves of the capacitors with adding Al2O3 or HfO2 inside the standard gate stack structure of a SONOS-type NVM, i.e., SiO2/Si3N4/SiO2. We found that VFB shifted toward positive direction when Al2O3 or HfO2 were deposited on top of SiO2 (tunneling layer). In contrast, VFB shifted toward negative direction when Al2O3 or HfO2 was deposited on top of Si3N4 (blocking layer). In addition, the magnitude of VFB shift for Al2O3 was about twice larger than HfO2. Next we also applied this scheme to the HfO2 nanocrystal SONOS-type NVM, and found that the tendency of VFB shift in the HfO2 nanocrystal NVM was the same with the conventional SONOS NVM. However, there was a serious gate injection problem in our device, so the fabricated devices can not be normally erased by FN-tunneling. We would tackle this problem in later chapters. Then, we adopted the high-k material (Al2O3, HfAlOx) to replace the traditional SiO2 as blocking layer for the HfO2 nanocrystal NVM. With high thermal budget processing for device fabrication, the high-k materials sustained pretty well and did not depict visible degradation. We exhibited the HfAlOx as blocking layer having faster programming and erasing speed. However, there were plentiful defects in the HfAlOx layer, and this made our device have “transient phenomenon” during erase operation. For our nanocrystal memory devices, there were advantages of fast programming speed, excellent data retention time at room temperature, and superior endurance after P/E cycles of 104. Finally, we adopted the intrinsic dipole scheme, i.e., depositing additional Al2O3 and HfO2 on top of tunneling oxide and used Al2O3 as blocking layer to make the so called SANOS-type NVM. The presence of dipole reflected on the observed larger device threshold voltage than the conventional one. Here we use both the FN-tunneling and hot carrier injection to study the electrical characteristics of the fabricated devices. We found that FN-tunneling operation has led to better endurance than hot carrier injection operation. Moreover, we also discussed the impact of dipole engineering on the retention and disturbance characteristics of our newly-developed nonvolatile memories.
Junglen, Tobias [Verfasser]. "Guiding and trapping of cold dipolar molecules / Tobias Junglen". 2005. http://d-nb.info/979065151/34.
Texto completoPiotrowski, Marcin. "Zastosowanie metrologiczne zimnych atomów pułapkowanych optycznie". Praca doktorska, 2015. https://ruj.uj.edu.pl/xmlui/handle/item/48897.
Texto completoTwo experiments with laser-cooled atoms held in an optical dipole traps are described in the dissertation. First is dedicated to non-linear magneto-optical effects in rubidium atoms, while second is devoted to optical lattice trap for strontium atoms. Selected metrological applications of optically trapped cold atoms in both experiments are discussed and presented. A dipole trap setup has been built at the Department of Photonics in Jagiellonian University. It is aimed at investigations of nonlinear magneto-optical effects like precise magnetometry by Faraday effect. A compact two-dimensional magneto optical (2D-MOT) trap with permanent magnets serves as a source of cold rubidium atoms for further cooling in three-dimensional magneto-optical trap (3D-MOT). The 2D-MOT is described and characterised. The results of the loading an optical dipole trap (ODT) from a the 3D-MOT are then presented. It is followed by the results of a Faraday rotation of a resonant laser beam with atoms confined in the final stage of confinement in ODT. The strontium lattice experiment is a part of a larger project: the construction of the first polish optical atomic clock (project Polish Optical Atomic Clock) at the National Laboratory for Atomic, Molecular and Optical Physics. An introduction to time and frequency metrology with optical clocks is given. We describe strontium atoms confined in the optical lattice as a frequency reference for the optical clock in detail. The results of precision spectroscopy of ultra- narrow clock transition in bosonic Sr-88 and the measurements of the clock stability based on atomic reference are presented and discussed.