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DTSTART;TZID=Europe/Madrid:20250324T080000
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DTSTAMP:20260411T142118
CREATED:20241223T082122Z
LAST-MODIFIED:20241223T082344Z
UID:1242-1742803200-1743094800@www.talentq.es
SUMMARY:Spring School on Open-Source Tools for Quantum Science & Technology
DESCRIPTION:The school is aimed at Master´s students who are interested in familiarizing themselves with the use of these tools. Advanced undergraduates\, starting PhD students\, and researchers in the field may also be interested to attend. \n\nTopics this year will include:\nQuantum photonic integrated circuits\nQuantum simulators with ultracold atoms\nQuantum computing\nTensor networks\nSimulation tools for 2D & quantum materials\nAI-Driven Scientific Discovery\n\nConfirmed speakers include: \n\nCarmen Rubio\, ICFO\nXumei Gu\, MPL\nDarrick Chang\, ICFO\nStefano Signorini\, ICFO\nRemy Vatre\, ICFO\nQuentin Redon\, ICFO\nJohannes Hauschild\, TUM\nChristina Hölzl\, Stuttgart\nJose Hugo Garcia\, ICN2\nFabio Scafirimuto\, IBM Quantum
URL:https://www.talentq.es/en/evento/spring-school-on-open-source-tools-for-quantum-science-technology/
LOCATION:ICFO\, Mediterranean Technology Park\, Avinguda Carl Friedrich Gauss\, 3\,\, Castelldefels\, Barcelona\, 08860\, Spain
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BEGIN:VEVENT
DTSTART;TZID=Europe/Madrid:20250325T160000
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SUMMARY:Seminar | RICHARD R. ALLEN
DESCRIPTION:Speaker: Richard R. Allen | PhD student at MIT \nTitle: Quantum Computing Enhanced Sensing \nAbstract: Quantum computing and quantum sensing represent two distinct frontiers of quantum information science. In this work\, we harness quantum computing to solve a fundamental and practically important sensing problem: the detection of weak oscillating fields with unknown strength and frequency. We present a quantum computing enhanced sensing protocol that outperforms all existing approaches. Furthermore\, we prove our approach is optimal by establishing the Grover-Heisenberg limit — a fundamental lower bound on the minimum sensing time. The key idea is to robustly digitize the continuous\, analog signal into a discrete operation\, which is then integrated into a quantum algorithm. Our metrological gain originates from quantum computation\, distinguishing our protocol from conventional sensing approaches. Indeed\, we prove that broad classes of protocols based on quantum Fisher information\, finite-lifetime quantum memory\, or classical signal processing are strictly less powerful. Our protocol is compatible with multiple experimental platforms. We propose and analyze a proof-of-principle experiment using nitrogen-vacancy centers\, where meaningful improvements are achievable using current technology. This work establishes quantum computation as a powerful new resource for advancing sensing capabilities. \nRegistration: https://events.teams.microsoft.com/event/0c8cf2a4-a9c9-4d2f-956a-26aa172e40b3@8f0d452c-b7a4-4964-b810-8c397374477b
URL:https://www.talentq.es/en/evento/seminar-richard-r-allen/
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ORGANIZER;CN="TalentQ":MAILTO:javier.bouzas.arufe@usc.es
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BEGIN:VEVENT
DTSTART;TZID=Europe/Madrid:20250325T170000
DTEND;TZID=Europe/Madrid:20250325T200000
DTSTAMP:20260411T142118
CREATED:20250319T082323Z
LAST-MODIFIED:20250319T082323Z
UID:1500-1742922000-1742932800@www.talentq.es
SUMMARY:Jornada de difusión del año internacional de la ciencia y tecnologías cuánticas
DESCRIPTION:Programa:\n\nINTRODUCCIÓN A LA FÍSICA CUÁNTICA A PARTIR DE EXPERIMENTOS SENCILLOS \n\nen la primera parte\, se mostrarán en directo montajes experimentales de Física Cuántica. La presentación de esa parte correrá a cargo del profesor Ángel Sanz\, del Departamento de Óptica y del catedrático de enseñanza secundaria Jorge Barrio Gómez de Agüero. \n \nUNA MIRADA ACTUAL AL UNIVERSO CUÁNTICO \n\nen la segunda parte\, el profesor Ángel Sanz impartirá la charla divulgativa «Una mirada actual al universo cuántico»\n\n\nLUGAR: Aula M1\, Facultad de Ciencias Físicas de la Universidad Complutense de Madrid. Plaza de las Ciencias 1\, Madrid
URL:https://www.talentq.es/en/evento/jornada-de-difusion-del-ano-internacional-de-la-ciencia-y-tecnologias-cuanticas/
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