Interações entre átomos de Rydberg no regime de bloqueio de excitação / Rydberg-atom interactions in the excitation blockade regime

Luís Felipe Barbosa Faria Gonçalves

12 December 2016

Neste trabalho estudamos algumas interações entre átomos de Rydberg em uma armadilha ótica de dipolo do tipo QUEST. Com esta armadilha obtemos uma amostra de 1,2 × 106 átomos de 85Rb no estado fundamental, à uma densidade de ∼ 1012 átomos/cm3 e temperatura média de 60 µK. Os átomos de Rydberg foram preparados utilizando uma transição de dois fótons a partir do estado fundamental 5S1/2, passando pelo estado intermediário 5P3/2 e em seguida para o estado de Rydberg desejado. Estudamos a interação entre pares de átomos, em diferentes níveis energéticos, através de duas técnicas diferentes. Na primeira, monitoramos os efeitos de transferência de população em estados nD oriundas de uma ressonância Förster. Estudamos a ressonância nD5/2 + nD5/2 → (n+2)P3/2 + (n2)F7/2 onde 37 ≤ n ≤ 47, em função da densidade da amostra atômica; e para o estado 37D5/2 manipulamos a mesma ressonância com a aplicação de um campo elétrico externo. Os resultados mostraram que este é um processo binário, evidenciado pela dependência quadrática da população no estado produto com relação ao estado excitado. Num outro experimento, estudamos a interação entre estados nS através do monitoramento, e controle, do efeito de bloqueio de excitação. Aqui mostramos que é possível controlar as interações interatômicas em uma amostra quasi-unidimensional de átomos de Rydberg variando a orientação de um campo elétrico externo. Mostramos que ao polarizar uma amostra de átomos no estado 50S1/2 com um campo, esta passa a interagir de modo semelhante ao de dipolos elétricos clássicos, onde a interação pode ser controlada com a variação da orientação dos dipolos atômicos. Tal interação pode, inclusive, ser cancelada quando os dipolos elétricos são alinhados em um ângulo de 54,7° com relação ao eixo internuclear. / In this work we have studied some interactions between Rydberg-atoms in a QUEST type optical dipole trap. With this trap we obtained a sample of 1,2 × 106 85Rb atoms in the ground state, in a density of ∼ 1012 atoms/cm3 and average temperature of 60 µK. The Rydberg-atoms were prepared using a two-photon transition from the ground state 5S1/2, through an intermediate state 5P3/2 and then to the desired Rydberg state. We have studied interactions between pairs of atoms at several energy levels, using two different techniques. In the first one, we have monitored the effects of the population transfer in nD states derived from a Förster resonance. We have studied the resonance nD5/2 + nD5/2 → (n + 2)P3/2 + (n 2)F7/2 for states of 37 ≤ n ≤ 47 as a function of of the samples atomic density. For the 37D5/2 state we have also manipulated the same resonance with the application of an external electric field. Our results have shown that this is a binary process, indicated by the quadratic dependence of the transferred population in relation with the excited state. In another experiment, we have studied the interaction between nS1/2 states by monitoring, and controlling, the excitation blockade effect. Here we have shown that it is possible to control the inter-atomic interactions in a quasi-one-dimensional sample of Rydberg-atoms by varying the orientation of an external electric field. We have demonstrated that when polarizing a sample of atoms, in the 50S1/2 state with a field, it starts to interact in a similar way as classic electric-dipoles, where the interaction can be controlled by varying the orientation of the atomic dipoles. Such interaction may even be canceled when the electric dipoles are aligned at an angle of 54,7° related to the internuclear axis.

Armadilha ótica de dipolo

Átomos de Rydberg

Bloqueio de excitação

Interações de longo alcance

Transferência de população

Excitation blockade

Long-range interactions

Optical dipole trap

Population transfer

Rydberg atoms

Ressonâncias moleculares em estados nP de átomos de Rydberg frios / Molecular resonances in nP states of cold Rydberg atoms

Jorge Douglas Massayuki Kondo

12 November 2010

Neste trabalho estudamos a interação entre átomos de Rydberg no estado nP e sua dependência com o campo elétrico dc. Estes estados apresentam ressonâncias Föster para um número quântico principal n menor que 37. Nestes processos de ressonância um par atômico no estado nP muda para um par nS+(n+1)S. Realizamos dois experimentos de evolução temporal para 32≤n≤36. No primeiro investigamos a dependência da taxa de transferência de população NnS em função do número quântico principal n. E no segundo estudamos a transferência de população para um estado fixo de n=33 em função do campo elétrico. Além disso, estudamos a dependência da população no estado 33S em função da densidade de átomos de Rydberg no estado 33P. Estes resultados nos permitem observar duas contribuições distintas, uma linear relacionada a radiação de corpo negro e uma quadrática ligada a interação de dois corpos. Estes resultados confirmam o modelo de taxa para o efeito da radiação de corpo negro. / In this work we studied the role of Rydberg atoms interactions in the nP state and the dc electric field dependency of this process. The nP state shows Föster resonances for principal quantum number less than 37. In this resonance process, an atomic pair in nP state changes to a pair nS+(n+1)S. We have performed two time evolution experiments for 32≤n≤36. In the first one we have investigated the NnS population transfer rate for a variable principal quantum number n. In the second we have study the population transfer for a fixed n=33, by varying an electric field. Moreover, we observed the density dependency of the population in the 33S state by varying the nP state atomic density. The results allow us to observe two distinct contributions, a linear contribution related with the black body radiation and a quadratic one connected with two body process. The results agree well with the rate model used to treat the black body radiation.

Armadilha magneto-óptica

Átomos de Rydberg frios

Estados nP de Rydberg

Potenciais moleculares

Transferência de populações

nP Rydberg States

Cold Rydberg atoms

Magneto-optical trap

Molecular potencials

Population transfer

Entangled states and coherent interaction in resonant media / Etats intriqués et interaction cohérente dans les milieux résonants

Chakhmakhchyan, Levon

21 July 2014

Nous analysons les caractéristiques d'intrication de quelques matériaux à l'état solide ainsi que des systèmes particuliers d'atomes et de champs en interaction. Une étude détaillée de la riche structure de phase des modèles de spins de basse dimension, décrivant le minéral naturel d'azurite et les composés de coordination à base de cuivre, a révélé des régimes à comportement d'intrication des plus robustes. En utilisant l'approche des systèmes dynamiques, la structure de phase de certains modèles classiques en réseaux hiérarchiques (récursifs) a aussi été étudiée et, pour la première fois, la transition entre régime chaotique et régime périodique au moyen de la bifurcation tangente a été détectée.Nous présentons une description détaillée des propriétés d'intrication de trois atomes piégés dans la limite dispersive. Une relativement simple accordabilité de la force atomique d'interaction de ce système et son étroite relation aux problèmes de frustration magnétique est démontrée. Les effets de propagation de pulses laser intenses dans un système atomique de type [lambda] avec des forces d'oscillateurs différentes sont analysés. Les résultats obtenus sont d'extrême importance dans des problèmes d'information quantique, comme par exemple, dans l'analyse du mécanisme de transfert de population dans des milieux ayant les propriétés définies ci-avant. Enfin, nous avons analysé les effets dissipatifs dans un protocole de distillation de l'intrication à variable continue récemment proposé. Malgré des contraintes additionnelles sur les paramètres du protocole, il est encore possible d'implémenter ce schéma de distillation évoqué ci-avant dans les technologies émergentes. / The entanglement features of some solid state materials, as well as of particular systems of interacting atoms and fields are analyzed. A detailed investigation of the rich phase structure of low dimensional spin models, describing the natural mineral azurite and copper based coordination compounds, has revealed regimes with the most robust entanglement behavior. Using the dynamical system approach, the phase structure of some classical models on hierarchical (recursive) lattices has been also studied and, for the first time, the transition between chaotic and periodic regimes by means of tangent bifurcation has been detected.A detailed description of entanglement properties of three atoms trapped in a cavity within the dispersive limit is presented. A relatively simple tunability of the atomic interaction strength of the above system and its close relation to the problems of frustrated magnetism is shown. Furthermore, the propagation effects of two intense laser pulses in a medium of [lambda] atoms with unequal oscillator strengths are investigated. Obtained results are crucial in some problems of quantum information theory, as, e.g., in the analysis of population transfer mechanism in media possessing the above properties. Finally, the dissipation effects in a recently proposed compact continuous-variable entanglement distillation protocol have been analyzed. Despite additional constraints on the parameters of the protocol, the discussed entanglement distillation scheme in quantum memories is still possible to implement within emerging technologies.

Intrication quantique

Modèles de réseaux de spins

Bifurcation

Chaos

Régime dispersif

Transfert adiabatique de population

Distillation de l'intrication

Quantum entanglement

Spin-lattice models

Bifurcation

Chaos

Dispersive regime

Adiabatic population transfer

Entanglement distillation

530.1

Quantum cascade laser spectroscopy : developments and applications

Walker, Richard James

January 2011

This thesis presents work examining the characteristics and applicability of quantum cascade lasers. An introduction is given explaining both the desire for a widely tunable, narrow bandwidth device working in the midinfrared, as well as detailing the ways in which quantum cascade lasers (QCLs) fulfill these requirements. The development and manufacture of QCLs are then discussed. The experimental section of this thesis is then split into three parts. Chapter 2 concerns the characterisation and application of several pulsed QCLs. The intrapulse mode of operation is employed and the effect of the resulting rapid frequency chirp upon molecular spectra is investigated in the form of rapid passage signals. The evolution of said rapid passage signals is then investigated as a function of chromophore pressure and identity, with different QCLs, chirp rates, and optical path lengths. The prospect of producing population transfer with chirped lasers is discussed. Chapters 3, 4, and 5 are then concerned with the application and characterisation of continuous wave QCLs. In these chapters a widely tunable commercially produced EC-QCL is utilised as well as two DFB QCLs, one of which is used in tandem with a home-made mount and temperature controller. In Chapter 3 a number of sensitive detection techniques are compared with the employment of wavelength modulation spectroscopy, long path cells and optical cavities, and the narrow bandwidth of QCLs utilised to determine a previously unknown spectral constant of DBr. Chapters 4 and 5 then utilise the high power of an external cavity quantum cascade laser in sub-Doppler Lamb-dip and polarisation spectroscopy measurements and then a pump-probe experiment. The laser linewidth is investigated on a millisecond timescale returning a current noise limited value of c.a. 2 MHz and the fundamental linewidth of the device investigated by altering the injection current. Chapter 5 is concerned with the pump-probe experiment, directly measuring the hot band absorption in a ladder like transition (R(6.5)$_\frac{1}{2}$ $v=1\leftarrow0$ and P(7.5)$_\frac{1}{2}$ $v=1\leftarrow0$). The Bennett peak in the hot band is observed with a DFB-QCL swept at $\sim 0.15$ MHz ns$^{-1}$ and is seen not just as a pump bandwidth limited lineshape, but as a highly velocity selected rapid passage signal. The effect of pressure, pump and probe scan rate and power upon this rapid passage signal is also studied. It is further noted that rapid thermalisation occurs within $v=1$ such that at pressures above c.a. 30 mTorr a broad NO doublet absorption is observed beneath the Bennett peak from which a total population transfer of c.a. $16 \%$ can be estimated. Finally an experiment is discussed in which this population transfer could be increased for use in secondary applications. Chapter 6 then presents initial measurements with two prototype pulsed 3.3 \si{\micro\metre} QCLs considering the prospects of such devices. A Fabry-P\'rot device is first studied using a Fourier transform spectrometer and temperature tuning used to produce a spectrum of the Q-branch of CH$_4$ around 3025 cm$^$. Experiments are then performed using a DFB QCL investigating the chirp rate of the system as an indicator of the rate of heat accumulation within the system. Heat management is of particular consideration when the sea-change is made from pulsed to continuous devices. For this device absorption spectra of two CH$_4$ transitions at 2971 cm$^$ are used to determine the chirp rate, which is found to be c.a. 1.8 GHz ns$^$, at least an order of magnitude higher than that of the longer wavelength pulsed devices considered in Chapter 2.

535

Molécules polaires ultra-froides : structure électronique et contrôle optique / Ultracold polar molecules : internal structure and optical control

Borsalino, Dimitri

25 September 2015

Ce mémoire s’inscrit dans le cadre des recherches sur les molécules ultra-froides, en forte expansion depuis plusieurs années. Contrairement aux atomes, les molécules ne peuvent que très difficilement être refroidies par laser. Il est donc nécessaire d’explorer des méthodes alternatives pour parvenir à la création de gaz moléculaires ultra-froids. Ce travail théorique s’est focalisé sur une classe particulière de molécules diatomiques hétéronucléaires, présentant un moment dipolaire électrique ou magnétique intrinsèque à l’origine de leurs interactions mutuelles anisotropes.Sur la base de la connaissance précise de la spectroscopie des molécules KRb et KCs (présentant un moment dipolaire électrique intrinsèque notable), combinée à des résultats théoriques, nous avons modélisé le refroidissement de leurs degrés de liberté internes au moyen du passage adiabatique Raman stimulé (STIRAP), processus laser conduisant les molécules dans leur état fondamental absolu. Plusieurs schémas STIRAP ont été discutés et comparés entre eux du point de vue de leur efficacité.Nous avons ensuite étudié la molécule RbCa, dont la spectroscopie est encore inconnue. Cette espèce est caractérisée par la présence conjointe d’un moment dipolaire électrique et magnétique permanent, qui présente un fort intérêt pour les possibilités de contrôle des interactions anisotropes qu’ils engendrent. Nous avons déterminé la structure électronique de RbCa par deux méthodes différentes de chimie quantique, permettant ainsi de qualifier la précision des résultats. Nous avons aussi proposé un schéma de transitions laser conduisant à la formation de molécules froides de RbCa à partir des atomes séparés.La manipulation et le piégeage de molécules repose sur la connaissance de leur réponse à un champ électromagnétique externe, caractérisée par leur polarisabilité dipolaire dynamique. Les calculs de chimie quantique entrepris plus haut nous ayant permis d’accéder à des états moléculaires très excités, nous avons déterminé cette quantité pour toute une série de molécules diatomiques (dimères alcalins, RbCa, RbSr,…). Nous avons ainsi pu déterminer les paramètres optimaux pour le piégeage laser de ces molécules. / This thesis deals with ultracold molecules research, which interest has been growing for several years. Unlike atoms, laser-cooling molecules is very difficult. Alternative methods are necessary to be searched for in order to create ultracold molecular gases. This theoretical work focuses on a particular type of heteronuclear diatomic molecules, possessing an intrinsic electric or magnetic dipole moment, from which originates their mutual anisotropic interactions.Based on the precise knowledge of KRb and KCs molecules (possessing a significant intrinsic electric dipole moment) spectroscopy, combined with theoretical results, the cooling of their internal degrees of freedom using Stimulated Raman Adiabatic Passage (STIRAP), a laser process bringing molecules towards their absolute ground state, has been modelled. Several STIRAP schemes have been investigated and compared regarding their efficiency. The RbCa molecule has then been studied, which spectroscopy is still unknown. The ability of controlling the anisotropic interactions induced by the simultaneous presence of an electric and magnetic dipole moment provided by this species is a clear advantage. The electronic structure of RbCa has been computed with two methods, thus allowing to estimate the reliability of the results. A scheme of laser transitions bringing to the formation of cold RbCa molecules from separate atoms has been proposed.Manipulating and trapping molecules relies on the precise knowledge of their response to an external electromagnetic field, characterised by their dynamic dipolar polarisability. The quantum chemistry calculations mentioned earlier allowed us to compute high-lying excited states, dynamic polarisability has then been computed for a whole set of diatomic molecules (alkali dimers, RbCa, RbSr, …). The optimal parameters for trapping those molecules has then been determined.

Matière froide

Molécules ultrafroides

Molécules polaire

Spectroscopie moléculaire théorique

Piégeage optique

Polarisabilité dynamique

Structure électronique

Chimie quantique

STIRAP

Cold matter

Ultracold molecules

Polar molecules

Theoretical molecular spectroscopy

Optical trapping

Dynamic polarisability

Electronic structure

Quantum chemistry

STIRAP

Population transfer

Reading Population Transfer in International Human Rights Law, International Humanitarian Law and International Criminal Law through the Principle of Humanity

Mac Allister, Karine

01 1900

Le transfert de population est la cause et la conséquence de plusieurs conflits armés. Il comprend le déplacement arbitraire de la population, le transfert de colons ainsi que le confinement des civiles en temps de guerre. Le transfert de population est un crime en droit international des droits de l’homme, en droit international humanitaire et en droit pénal international. Néanmoins, il est encore considéré comme une solution aux problèmes de minorités et aux conflits ‘ethniques’. Cette thèse étudie comment le crime de transfert de population est défini, interprété et appliqué en droit international et par les tribunaux régionaux et internationaux et la communauté internationale selon l’État de droit. / Population transfer is a cause and consequence of armed conflict. It entails the arbitrary displacement of the population, the implantation of settlers and unlawful confinement. It is a violation of international human rights law and international humanitarian law and a crime in international criminal law. Yet, it is still considered a solution to minority and ‘ethnic’ problems. Using the rule of law as theoretical framework, this thesis assesses how the crime of population transfer is defined, interpreted and applied under international law and by regional and international courts as well as by the international community.

Déplacement forcé

Déplacement arbitraire

Transfert forcé de population

Déportation

Expulsion

Colonisation

Autodétermination

Colons

État de droit

Droit international public

Droit pénal international

Droit international humanitaire

Tibet

Palestine

Sahara Occidental

Forced displacement

Arbitrary displacement

Population transfer

Colonization

Settlers

Self-determination

Conflicting rights

Conflits de droit

Mass expulsion

International criminal law

International humanitarian law

Rule of law

Dignité humaine

Principle of humanity

International human rights law