BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//Qureca Spain - ECPv6.16.2//NONSGML v1.0//EN
CALSCALE:GREGORIAN
METHOD:PUBLISH
X-ORIGINAL-URL:https://www.qureca.com/es/
X-WR-CALDESC:Eventos para Qureca Spain
REFRESH-INTERVAL;VALUE=DURATION:PT1H
X-Robots-Tag:noindex
X-PUBLISHED-TTL:PT1H
BEGIN:VTIMEZONE
TZID:UTC
BEGIN:STANDARD
TZOFFSETFROM:+0000
TZOFFSETTO:+0000
TZNAME:UTC
DTSTART:20240101T000000
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250407
DTEND;VALUE=DATE:20250412
DTSTAMP:20260525T020226
CREATED:20241209T121646Z
LAST-MODIFIED:20241209T121646Z
UID:10000272-1743984000-1744415999@www.qureca.com
SUMMARY:SPIE Photon Counting and Quantum Optics 2025
DESCRIPTION:Photon counting represents the ultimate level of sensitivity in optical measurements. The feasibility of individual photon detection has opened a broad spectrum of new applications in both research and industry now. \nThe fast emerging types of solid state photon detectors are providing simple\, cheap and rugged tools to register and time tag photons. Superconducting photon detectors\, either in the form of an ultrathin superconducting nano-stripe or a transition-edge sensor\, are presently the highest performance devices\, especially in the near-infrared optical spectrum. These devices are routinely used in quantum information experiments. They exhibit high quantum efficiency\, MHz counting rate\, and very low jitter\, and can be implemented as photon-number and/or photon-energy resolving devices. Avalanche photodiodes specifically designed for single photon counting have been developed on the basis of various materials during the last 30 years. They have been tailored for numerous applications in optical sensors\, quantum cryptography\, optical ranging and Lidar\, time resolved spectroscopy\, laser-induced fluorescence\, astronomy and optical time transfer\, to name just a few. Finally\, there is a fast growing area of photon counters based on various nanostructures and nanodevices\, as well as high energy radiation photon detectors for nonproliferation\, security and medical uses. The conference will gather an audience from the contributing research community active in the academic\, industrial\, space related\, physics and research fields. \nQuantum Optics incorporates a variety of experimental systems in which the interaction of single quantum objects can be controlled close to the ultimate limit of fundamental quantum fluctuations. These quantum objects include atoms\, ions and photons\, as well as artificial solid-state based objects like electrons in quantum dots\, color-centers in solids or superconducting qubits. The research focus is on the realization of strong enough coupling between quantum objects so that the controlled interaction can be employed as a building block of quantum information processing. Quantum state transfer of photons into quantum memories and two-qubit quantum gates have been recently realized and are ready to be upgraded for being used in larger quantum networks and for extending the scope of applications. All these efforts require the most possible detailed understanding of quantum physics of these objects and their interactions in hybrid systems. This objective stimulates a large scope of experimental and theoretical researches\, ranging from entanglement theory as far as to material sciences\, which fields exhibit a convergence in their objectives and terminology. In order to survey the current state-of-the-art in photon-based quantum information processing\, the discussion is open to both fundamental aspects as well as basic and applied research oriented on the realization of qubits and controlled interactions. \nThe conference program will consist of oral and poster presentations on topics that include\, but are not limited to: \nPhoton Counting \n\nnew photon counting detectors\, both semiconducting and superconducting\ntime correlated photon counting advances\nphoton number resolving detection\nlaser ranging and laser time transfer\nphoton counting devices in astronomy\nlaser-induced fluorescence\nsingle molecule detection\noptical time domain reflectometry\noptical sensors\nhigh-energy radiation photon detectors\nimaging applications using multipixel photon detectors\nnew and emerging applications of photon counting.\n\nQuantum Optics \n\nquantum communication and cryptography\nquantum simulation and computing\nquantum sensing\nquantum imaging and entanglement enhanced metrology\nbasic components for quantum information processing\nlow dimensional interacting quantum systems\nquantum amplifiers\, memories and interfaces\nopen quantum systems: driving\, dissipation and control\nmeasurement theory\nquantum networks\ncold atoms\ndetection and metrology for quantum information processing components.
URL:https://www.qureca.com/es/calendar/spie-photon-counting-and-quantum-optics-2025/
LOCATION:Prague
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250411
DTEND;VALUE=DATE:20250412
DTSTAMP:20260525T020226
CREATED:20241209T121900Z
LAST-MODIFIED:20241209T121900Z
UID:10000273-1744329600-1744415999@www.qureca.com
SUMMARY:Quantum Computing Applications in Economics and Finance Conference
DESCRIPTION:Friday April 11\, 2025 \nQuantum computation\, a paradigm shift in computer science\, holds the potential to affect research in economics and finance profoundly. Quantum algorithms\, such as quantum annealing and the Quantum Approximate Optimization Algorithm\, can significantly speed up optimization and asset allocation by exploring vast solution spaces more efficiently. Quantum Monte Carlo methods enhance the accuracy and speed of simulations used in pricing derivatives and assessing risk. Additionally\, quantum machine learning can improve predictive models. \nA conference and a special issue of the Journal of Economic Dynamics and Control are organized to promote cross-disciplinary exchanges on implementing quantum computational methods to problems of interest to economics and finance. The topics include\, but are not limited to\, solving DSGE models\, pricing of financial risk\, quantum ambiguity and econometric model specification\, quantum money\, and cryptography\, among others.
URL:https://www.qureca.com/es/calendar/quantum-computing-applications-in-economics-and-finance-conference/
LOCATION:University of Pennsylvania
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250414
DTEND;VALUE=DATE:20250415
DTSTAMP:20260525T020226
CREATED:20241209T123520Z
LAST-MODIFIED:20241209T123520Z
UID:10000279-1744588800-1744675199@www.qureca.com
SUMMARY:World Quantum Day
DESCRIPTION:Discover the language of the universe\n\n\n\n\nWhy April 14?\n\n\n\n\nThe World Quantum Day is celebrated on April 14\, a reference to 4.14\, the rounded first digits of Planck’s constant: 4.1356677×10−15 eV⋅s = 0.000 000 000 000 004 1356677 electron volt second\, a product of energy and time that is the fundamental constant governing quantum physics. \nWhy is Planck’s constant so important? Did you know it is used to define the kilogram? And\, otherwise\, how does it affect our lives? These are some of the questions\, among many others\, that will be addressed by the World Quantum Day activities. \nAnd what other dates and numbers do you consider important for Quantum Science and Technology? When was quantum physics first taught in your country? And in your university/school? Check out our Quantum@Calendar project\, which aims to record historical quantum events and make every day a quantum day! \n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nGoals\n\n\n\n\nThe World Quantum Day aims at engaging the general public in the understanding and discussion of Quantum Science and Technology\, namely: \nhow it helps us understand Nature at its most fundamental level\,\nhow it helped us develop technologies that are crucial for our life today\,\nand how it can lead to future scientific and technological revolutions\, and how these can impact our society.\nThe World Quantum Day is an initiative from quantum scientists around the World\, launched on 14 April 2021 as the countdown towards the first global celebration on 14 April 2022. \nIt is a decentralized and bottom-up initiative\, inviting all scientists\, engineers\, educators\, communicators\, entrepreneurs\, technologists\, historians\, philosophers\, artists\, museologists\, producers\, etc.\, and their organisations\, to develop their own activities\, such as outreach talks\, exhibitions\, lab tours\, panel discussions\, interviews\, artistic creations\, etc.\, to celebrate the World Quantum Day around the World.
URL:https://www.qureca.com/es/calendar/world-quantum-day-2/
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250414
DTEND;VALUE=DATE:20250417
DTSTAMP:20260525T020226
CREATED:20241209T131439Z
LAST-MODIFIED:20241209T131439Z
UID:10000290-1744588800-1744847999@www.qureca.com
SUMMARY:Quantum.Tech USA 2025
DESCRIPTION:
URL:https://www.qureca.com/es/calendar/quantum-tech-usa-2025/
LOCATION:Washington D.C.\, United States
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250423
DTEND;VALUE=DATE:20250426
DTSTAMP:20260525T020226
CREATED:20241209T122005Z
LAST-MODIFIED:20241209T122005Z
UID:10000274-1745366400-1745625599@www.qureca.com
SUMMARY:Quantum Computing Theory in Practice
DESCRIPTION:Quantum hardware is living an exceptionally exciting phase and ongoing theoretical advancements are bringing practical applications of this hardware closer to realization. QCTiP aims to bring together academic community and industry representatives to foster discussions on how to unlock the full potential of quantum computers. \n\n\nAfter the successful past editions in the United Kingdom\, the 2025 edition will take place in Berlin\, from the 23rd to the 25th of April 2025. It will be hosted by the Physics department of Freie Universität Berlin in collaboration with industry sponsors.
URL:https://www.qureca.com/es/calendar/quantum-computing-theory-in-practice/
LOCATION:Berlin\, Germany
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250428
DTEND;VALUE=DATE:20250501
DTSTAMP:20260525T020226
CREATED:20250206T083025Z
LAST-MODIFIED:20250206T083025Z
UID:10000309-1745798400-1746057599@www.qureca.com
SUMMARY:Bristol Quantum Information Technologies Workshop
DESCRIPTION:The Bristol Quantum Information Technologies Workshop will return 28-30 April 2025 with a new programme of speakers bringing you everything you need to know about the emerging field of Quantum Technology. \n\n\nRegistration for BQIT:25 is now open!\nHybrid tickets close 11 April\, and virtual tickets close 24 April. \nBQIT is a three day annual workshop aimed at enabling leading UK and international academics and industrial partners to come together; to explore and discuss future ambitions and challenges in the field of Quantum Information Technologies. Since our conception in 2014 we have had 370 speakers and panellists who have presented their work and opinions on a range of topics\, from quantum theory to innovation in industry. \nBQIT:25 will take place both in-person and online 28-30 April 2025.\nFor further information\, please contact bqit-admin@bristol.ac.uk
URL:https://www.qureca.com/es/calendar/bristol-quantum-information-technologies-workshop/
LOCATION:Bristol
END:VEVENT
END:VCALENDAR