Towards an optical lattice clock based on neutral mercury

We are investigating the possibilities of using neutral mercury as a new species to realize a highly accurate atomic clock using the non-perturbing dipole lattice trapping scheme. Typically, accuracy below 10-17 is targeted, which would make neutral mercury an interesting candidate for a redefinition of the SI second. This paper presents our on-going work towards the realization of an optical lattice clock using neutral mercury. We will describe a 254 nm laser source delivering several hundreds of milliWatts at this wavelength with a suitably low frequency noise for laser cooling and magneto-optic trapping. We will describe our vacuum system for magneto-optic trap and report on the status of our work regarding magneto-optic trapping of mercury. We will also describe our clock laser at 266 nm.Institut Francilien de Recherche sur les Atomes Froids (IFRAF)Centre National d'Études Spatiales (CNES

Bose-Einstein condensation in 87Rb: characterization of the Brazilian experiment

We describe the experimental apparatus and the methods to achieve Bose-Einstein condensation in 87Rb atoms. Atoms are first laser cooled in a standard double magneto-optical trap setup and then transferred into a QUIC trap. The system is brought to quantum degeneracy selectively removing the hottest atoms from the trap by radio-frequency radiation. We also present the main theoretical aspects of the Bose-Einstein condensation phenomena in atomic gases

Measuring the temperature of a gas in the micro-Kelvin regime

O desenvolvimento científico nos permite trabalhar hoje com gases em temperaturas muito inferiores aos 10-6 K. Estes gases, uma vez obtidos por técnicas de resfriamento óptico, precisam ser caracterizados com relaçãao às suas propriedades termodinâmicas. a a medida da temperatura. Dentre tais propriedades está a medida da temperatura. Neste trabalho mostramos de forma tutorial como são medidas tais baixas temperaturas, através de técnicas de tempo de voo. Tais técnicas combinam conhecimento básico de mecânica, termodinâmica dentre outros tópicos convencionalmente estudados nos cursos básicos de física.Scientific development allows us to work today with gas at temperatures far below the 10(-6) K. These gases are obtained by optical cooling techniques and need to be characterized for their thermodynamic properties. Among these properties is the temperature measurement. We show in a tutorial how low temperatures are measured using techniques called time of flight. These techniques combine basic knowledge of mechanics, thermodynamics, among other topics conventionally studied in the basic physics course

Compact frequency standard based on an intracavity sample of cold cesium atoms

We have demonstrated the possibility for a compact frequency standard based on a sample of cold cesium atoms. In a cylindrical microwave cavity, the atoms are cooled and interrogated during a free expansion and then detected. The operation of this experiment is different from conventional atomic fountains since all the steps are sequentially performed in the same position of space. In this paper we report the analysis of a Ramsey pattern observed to present a (47±5) Hz linewidth and a stability of (5±0.5)x10-13τ-1/2 for an integration time longer than 100 s. Some of the main limitations of the standard are analyzed. This present report demonstrates considerable improvement of our previous work [J. Opt. Soc. Am. B 25, 909 (2008)] where the atoms were in a free space and not inside a microwave cavity.FAPESPCNPqCAPESFAPESP-CNR

Reducing the environmental impact of surgery on a global scale: systematic review and co-prioritization with healthcare workers in 132 countries

Abstract Background Healthcare cannot achieve net-zero carbon without addressing operating theatres. The aim of this study was to prioritize feasible interventions to reduce the environmental impact of operating theatres. Methods This study adopted a four-phase Delphi consensus co-prioritization methodology. In phase 1, a systematic review of published interventions and global consultation of perioperative healthcare professionals were used to longlist interventions. In phase 2, iterative thematic analysis consolidated comparable interventions into a shortlist. In phase 3, the shortlist was co-prioritized based on patient and clinician views on acceptability, feasibility, and safety. In phase 4, ranked lists of interventions were presented by their relevance to high-income countries and low–middle-income countries. Results In phase 1, 43 interventions were identified, which had low uptake in practice according to 3042 professionals globally. In phase 2, a shortlist of 15 intervention domains was generated. In phase 3, interventions were deemed acceptable for more than 90 per cent of patients except for reducing general anaesthesia (84 per cent) and re-sterilization of ‘single-use’ consumables (86 per cent). In phase 4, the top three shortlisted interventions for high-income countries were: introducing recycling; reducing use of anaesthetic gases; and appropriate clinical waste processing. In phase 4, the top three shortlisted interventions for low–middle-income countries were: introducing reusable surgical devices; reducing use of consumables; and reducing the use of general anaesthesia. Conclusion This is a step toward environmentally sustainable operating environments with actionable interventions applicable to both high– and low–middle–income countries

Electrooptic characterization of organic crystals

Este trabalho trata da caracterização eletroóptica de cristais orgânicos, a saber: L-arginina fosfatada, L-alanina e L-treonina. O aspecto teórico que envolve este efeito nestes cristais é descrito, discutindo a forma de manifestação do efeito em cada um dos grupos de simetria cristalina aos quais pertencem. Além disso, discutimos e observamos a ocorrência de efeitos de natureza piezoelétrica durante o processo de caracterização eletroóptica.This work reports on the electrooptical characterization of organic crystals, namely: L-arginine phosphate monohidrate, Lalanine and L-threonine. We describe the theoretical aspect in these crystals discussing how the effect occurs according to the symmetry groups of each one. Furthermore, we discuss and observe the occurrence of piezoelectric effects during the electrooptical characterization

Electrooptic characterization of organic crystals

Este trabalho trata da caracterização eletroóptica de cristais orgânicos, a saber: L-arginina fosfatada, L-alanina e L-treonina. O aspecto teórico que envolve este efeito nestes cristais é descrito, discutindo a forma de manifestação do efeito em cada um dos grupos de simetria cristalina aos quais pertencem. Além disso, discutimos e observamos a ocorrência de efeitos de natureza piezoelétrica durante o processo de caracterização eletroóptica.This work reports on the electrooptical characterization of organic crystals, namely: L-arginine phosphate monohidrate, Lalanine and L-threonine. We describe the theoretical aspect in these crystals discussing how the effect occurs according to the symmetry groups of each one. Furthermore, we discuss and observe the occurrence of piezoelectric effects during the electrooptical characterization

Development of an atomic fountain to user as a primary time standard

Tendo por objetivo principal a implementação de um laboratório de pesquisa em tempo e freqüência, tomamos como primeiro alvo a ser alcançado a realização da definição primária do segundo, conforme estabelecido pelo BIPM, baseado no átomo de 133CS. Seguindo os passos nessa linha de pesquisa, o laboratório construiu um primeiro padrão baseado em feixe efusivo e operado opticamente. Atualmente, os sistemas com maior capacidade de determinação do segundo são os padrões de átomos frios, denominados chafarizes, dado o seu esquema de funcionamento. O objetivo principal desse trabalho foi o desenvolvimento de um padrão de tempo e freqüência baseado em um sistema de átomos frios, passando por todas as fases de sua implementação. Tais fases dizem respeito à construção de sistemas de controle de lasers de diodo, síntese de freqüências, avaliação de sinais de tempo e freqüência e controle e aquisição dos sinais de interrogação atômica. Adicionada a isso a necessidade de estabelecer um ambiente próprio ao desenvolvimento de tal experimento. Os resultados observados até aqui permitem que sejam estabelecidas novas metas, em busca do refinamento desse padrão. Além disso, os tipos de sistemas abordados são passíveis de utilização no desenvolvimento de outros padrões, tanto primários como secundários, sendo requisitos fundamentais no estabelecimento de metrologia científica de tempo e freqüência.Having as a main goal the implementation of a research laboratory in time and frequency, we set the first target to be reached the realization of the primary definition of the second, as stated by BIPM, based on the 133CS atom. Following the steps in this research line our laboratory constructed a first standard based on an effusive beam optically operated. Nowadays, the most capable systems in the determination of the second are the cold atoms standards, called fountains, due to their operation mode. The main subject of this thesis is the development of a time and frequency standard based in cold atoms doing all the steps to implement it. These steps concern to the construction of diode lasers control systems, frequency synthesis, time and frequency signal characterization and atomic interrogation signal acquisition, added the need to the establishment of an appropriate environment to develop such experiment. The observed results until now allowed the determination of the new goals in the search of the standard refinement. Moreover, the kind of systems described here can be used in the development of other standards, either primary or secondary, being fundamental requisites in the establishment of time and frequency scientific metrology

Development of an atomic fountain to user as a primary time standard

Tendo por objetivo principal a implementação de um laboratório de pesquisa em tempo e freqüência, tomamos como primeiro alvo a ser alcançado a realização da definição primária do segundo, conforme estabelecido pelo BIPM, baseado no átomo de 133CS. Seguindo os passos nessa linha de pesquisa, o laboratório construiu um primeiro padrão baseado em feixe efusivo e operado opticamente. Atualmente, os sistemas com maior capacidade de determinação do segundo são os padrões de átomos frios, denominados chafarizes, dado o seu esquema de funcionamento. O objetivo principal desse trabalho foi o desenvolvimento de um padrão de tempo e freqüência baseado em um sistema de átomos frios, passando por todas as fases de sua implementação. Tais fases dizem respeito à construção de sistemas de controle de lasers de diodo, síntese de freqüências, avaliação de sinais de tempo e freqüência e controle e aquisição dos sinais de interrogação atômica. Adicionada a isso a necessidade de estabelecer um ambiente próprio ao desenvolvimento de tal experimento. Os resultados observados até aqui permitem que sejam estabelecidas novas metas, em busca do refinamento desse padrão. Além disso, os tipos de sistemas abordados são passíveis de utilização no desenvolvimento de outros padrões, tanto primários como secundários, sendo requisitos fundamentais no estabelecimento de metrologia científica de tempo e freqüência.Having as a main goal the implementation of a research laboratory in time and frequency, we set the first target to be reached the realization of the primary definition of the second, as stated by BIPM, based on the 133CS atom. Following the steps in this research line our laboratory constructed a first standard based on an effusive beam optically operated. Nowadays, the most capable systems in the determination of the second are the cold atoms standards, called fountains, due to their operation mode. The main subject of this thesis is the development of a time and frequency standard based in cold atoms doing all the steps to implement it. These steps concern to the construction of diode lasers control systems, frequency synthesis, time and frequency signal characterization and atomic interrogation signal acquisition, added the need to the establishment of an appropriate environment to develop such experiment. The observed results until now allowed the determination of the new goals in the search of the standard refinement. Moreover, the kind of systems described here can be used in the development of other standards, either primary or secondary, being fundamental requisites in the establishment of time and frequency scientific metrology