José Brito scite author profile

We present, characterize, and apply a photonic quantum interface between the near infrared and telecom spectral regions. A singly resonant optical parametric oscillator (OPO) operated below threshold, in combination with external filters, generates high-rate (> 2.5 · 10 6 s −1 ) narrowband photon pairs (∼ 7 MHz bandwidth); the signal photons are tuned to resonance with an atomic transition in Ca + , while the idler photons are at telecom wavelength. Quantum interface operation is demonstrated through high-rate absorption of single photons by a single trapped ion (∼ 670 s −1 ), heralded by coincident telecom photons.

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Coherence and entanglement preservation of frequency-converted heralded single photons

Lenhard

Brito

Bock

et al. 2017

Opt. Express

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We report on quantum frequency conversion of near-infrared photons from a wavelength of 854 nm to the telecommunication O-band at 1310 nm with 8 % overall conversion efficiency. Entangled photon pairs at 854 nm are generated via type-II spontaneous parametric down conversion. One photon is mixed with a strong pump field in a nonlinear ridge waveguide for its conversion to 1310 nm. We demonstrate preservation of first and second order coherence of the photons in the conversion process. Based on this we infer the coherence function of the two-photon state and compare it with the actual measured one. This measurement demonstrates preservation of time-energy entanglement of the pair. With 88 % visibility we violate a Bell inequality.

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Doubly heralded single-photon absorption by a single atom

et al. 2016

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We report on a single-photon-to-single-atom interface, where a single photon generated by Spontaneous Parametric Down Conversion (SPDC) is absorbed by a single trapped ion. The photon is heralded by its time-correlated partner generated in the SPDC process, while the absorption event is heralded by a single photon emitted in its course. Coincidence detection marks doubly-heralded absorption, enabling photon-to-atom quantum state transfer [1,2]. Background in the coincidence measurement is strongly suppressed by a new method that discriminates real absorption events from dark count-induced coincidences.A major goal in quantum technologies is to integrate quantum communication and information processing into quantum networks [3]. One promising approach is using single atoms and photons as nodes and channels of the network [4][5][6]. Single photons are able to transmit quantum information between different nodes of the network, while single atoms serve as high-fidelity, long-storagetime memories; single trapped ions, in particular, may additionally be used as quantum processors [7][8][9][10]. In this context, the use of heralding photons for repeaters and memories schemes is very promising [11,12]: successful entanglement transfer or information storage onto a single atom is signaled by the detection of a photonic herald emitted as a consequence of the process. The detection of such heralds permits one to discriminate successful events and thereby enables high-fidelity protocols, e.g. for photon-to-atom quantum state transfer [1,13] or distant ion entanglement [11].

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Single telecom photon heralding by wavelength multiplexing in an optical fiber

et al. 2016

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We demonstrate the multiplexing of a classical coherent and a quantum state of light in a single telecommunciation fiber. For this purpose we make use of spontaneous parametric down conversion and quantum frequency conversion to generate photon pairs at 854 nm and the telecom O-band. The herald photon triggers a telecom C-band laser pulse. The telecom single photon and the laser pulse are combined and coupled to a standard telecom fiber. Low background time correlation of the classical and quantum signal behind the fiber shows successful telecommunication channel multiplexing.

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Emission and Absorption of Single Photons by Single Atoms

Eschner

Huwer

Ghosh

et al. 2012

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Análisis en Procesos de Producción del Sector Bananero de acuerdo a la Norma Sostenible RAS e ISO (14001-9001) durante la emergencia sanitaria Covid-19

et al. 2021

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Pocas veces se ve el interés que se le otorga a las empresas que tienen como actividad comercial y económica el sector agroindustrial, dejando de lado el impacto económico que podría otorgarle al país. En este documento pretendemos hablar acerca de las empresas bananeras del sector agroindustrial ubicadas en la ciudad de Milagro y sus recintos aledaños, y cuáles son los desafíos a los que se enfrentan y sus principales problemas que como empresa enfrentan principalmente a raíz de la pandemia covid-19 que azotó al país en el pasado año 2020. La presente investigación tuvo como objetivo analizar la productividad de los procesos de producción de planta empacadora de banano mediante la aplicación de normativas ISO 9001 y normas de inocuidad y acreditación de exportación de la fruta RAS (Rainforest Alliance Sostenible), para ello aplicamos técnicas y herramientas de ingeniería para identificar los problemas que enfrentan esas empresas (diagramas de flujo, diagramas PESPC, diagramas de operaciones, entre otros). Como resultado se mostró el problema que enfrentan las empresas del sector bananero al aplicar herramientas de diagramas de Ishikawa, Principio de Pareto, Diagrama Flujo de operaciones y árbol de problema. Se propuso mejorar las operaciones del proceso de empaque para disminuir tareas y actividades innecesarias optimizando el tiempo en planta empacadora y de esta forma aumentar la productividad dentro de la empresa. Se recomendó aplicar hojas de control, fichas técnicas base a la normativa 9001 y capacitar al personal de campo, cosecha y empaque.

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Peine de frecuencias ópticas basado en la mezcla de cuatro ondas en una fibra óptica altamente no lineal combinado con modulación electroóptica

Brito¹,

Salcedo²,

Mata³

et al. 2022

Ecuad. Sci. J

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En los últimos 20 años los peines de frecuencias ópticas basados en lasers de femtosegundos representaron una revolución en el área de metrología y medidas de precisión, permitiendo medir directamente frecuencias de varias centenas de THz, así, como posibilitando el advenimiento de relojes atomicos ópticos. En este trabajo, estudiamos la generación de peines de frecuencias ópticas con base en moduladores electrópticos y fibras altamente no lineales, con el objetivo de implementar nuevas configuraciones y generar espectros con el mayor ancho de banda y alta coherencia entre las frecuencias generadas, aprovechando componentes comerciales disponibles en las comunicaciones ópticas. Nosotros implementamos un peine de frecuencias ópticas basado en efectos no lineales a través de una fibra óptica altamente no lineal combinándolo con modulación electroóptica. Los resultados experimentales muestran un peine de frecuencias ópticas con más de 100 nm de ancho de banda centrado en 1550 nm y con 25 GHz de separación entre las frecuencias, usando dos láseres continuos.

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Double-heralded single-photon absorption by a single atom

Brito

Kucera

Eich

et al. 2014

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José Brito

Telecom-heralded single-photon absorption by a single atom

Coherence and entanglement preservation of frequency-converted heralded single photons

Doubly heralded single-photon absorption by a single atom

Single telecom photon heralding by wavelength multiplexing in an optical fiber

Emission and Absorption of Single Photons by Single Atoms

Análisis en Procesos de Producción del Sector Bananero de acuerdo a la Norma Sostenible RAS e ISO (14001-9001) durante la emergencia sanitaria Covid-19

Peine de frecuencias ópticas basado en la mezcla de cuatro ondas en una fibra óptica altamente no lineal combinado con modulación electroóptica

Double-heralded single-photon absorption by a single atom

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