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BEGIN:VEVENT
DTSTART;VALUE=DATE:20241202
DTEND;VALUE=DATE:20241203
DTSTAMP:20260418T133322
CREATED:20241202T124130Z
LAST-MODIFIED:20250311T130612Z
UID:121520-1733097600-1733183999@www.a3veen.nl
SUMMARY:Entangling Independent Particles by Path Identity - publication
DESCRIPTION:In the study ‘Entangling Independent Particles by Path Identity‘ scientists used PyTheus\, an AI tool that has been specifically created for designing quantum-optic experiments. \nThe authors of the paper initially set out to reproduce established protocols for entanglement swapping in quantum communications. However\, the AI tool kept producing a much simpler method to achieve quantum entanglement of photons. When particles such as photons become entangled\, they can share quantum properties — including information — regardless of the distance between them. This phenomenon is important in quantum physics and is one of the features that makes quantum computers so powerful. But the bonds of quantum entanglement have typically proven challenging for scientists to form. This is because it requires the preparation of two separate entangled pairs\, then measuring the strength of entanglement — called a Bell-state measurement — on a photon from each of the pairs. These measurements cause the quantum system to collapse and leave the two unmeasured photons entangled\, despite them never having directly interacted with one another. This process of “entanglement swapping” could be used for quantum teleportation. \nLinks:\nScientists discover simpler way to achieve Einstein’s ‘spooky action at a distance’ thanks to AI breakthrough — bringing quantum internet closer to reality
URL:https://www.a3veen.nl/event/entangling-independent-particles-by-path-identity-publication/
CATEGORIES:IT,Kwantuminternet
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20240726
DTEND;VALUE=DATE:20240727
DTSTAMP:20260418T133322
CREATED:20240726T033059Z
LAST-MODIFIED:20240827T175547Z
UID:112328-1721952000-1722038399@www.a3veen.nl
SUMMARY:Quantum and coherent signal transmission on a single-frequency channel via the electro-optic serrodyne technique - publication
DESCRIPTION:Scientists have transmitted quantum and conventional internet data through the same fiber-optic channel\, meaning a future quantum internet could theoretically use existing infrastructure. \nScientists have successfully transmitted quantum data and conventional data through a single optical fiber for the first time. The research demonstrates that quantum data in the form of entangled photons and conventional internet data sent as laser pulses can coexist in the same fiber-optic cable. Most research into building a quantum internet has focused on the need for separate infrastructure or dedicated channels for quantum data to avoid interference from “classical” data. But this new “hybrid” network could pave the way for more efficient implementation of quantum communications by enabling quantum and conventional data to share the same infrastructure. The researchers revealed their findings in a study published July 26 in the journal Science Advances. \nLinks:\nQuantum data beamed alongside ‘classical data’ in the same fiber-optic connection for the 1st time
URL:https://www.a3veen.nl/event/quantum-and-coherent-signal-transmission-on-a-single-frequency-channel-via-the-electro-optic-serrodyne-technique-publication/
CATEGORIES:IT,Kwantuminternet
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20231222
DTEND;VALUE=DATE:20231223
DTSTAMP:20260418T133322
CREATED:20240318T125354Z
LAST-MODIFIED:20240318T130901Z
UID:104338-1703203200-1703289599@www.a3veen.nl
SUMMARY:2023 Quantum Threat Timeline Report - publication
DESCRIPTION:The global race to develop quantum computers has critical implications for cybersecurity and organizations must pay attention. \nMitigation of the quantum threat to cybersecurity requires a transition to cryptology that is resilient against quantum attacks – implemented carefully and not rushed – evaluated based on organizations’ specific shelf lives\, migration times and risk appetites. The 2023 Quantum Threat Timeline Report\, a collaboration between GRI and evolutionQ\, synthesizes 37 leading experts’ insights on the current state of quantum computing and the threat it poses for cybersecurity. This fifth installment in the annual reporting explores the many factors that affect the quantum threat timeline\, including the skyrocketing level of investment in quantum computing and related technologies. The good news is that new “quantum safe” cryptographic solutions exist that can safeguard critical data and systems. However\, transitioning to them is complex and requires substantial time to avoid pitfalls. This report quantifies the urgency for mitigating the looming quantum threat and will be of value to those responsible for managing cyber-risk. A proactive approach to the quantum-safe transition will prevent gaps in cybersecurity and reduce risks tied to hasty implementation. \nLinks:\n2023 Quantum Threat Timeline Report \nOpen brief aan de Europese Commissie: Quantumcomputers kunnen computerbeveiliging omzeilen
URL:https://www.a3veen.nl/event/2023-quantum-threat-timeline-report-publication/
CATEGORIES:IT,Kwantuminternet
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Amsterdam:20230913T200000
DTEND;TZID=Europe/Amsterdam:20230913T213000
DTSTAMP:20260418T133322
CREATED:20230907T123754Z
LAST-MODIFIED:20230907T124403Z
UID:94497-1694635200-1694640600@www.a3veen.nl
SUMMARY:The Quantum Internet: An unhackable internet of the future (TV RIGB webcast)
DESCRIPTION:The information quantum computers can provide us with will be worlds away from standard computers. \nBecause of this\, the standard internet alone will not suffice in allowing us to access this quantum information; a quantum internet must be developed to keep up with the immense increase in computational power. Join Kian van der Enden as he explores how we can build the internet the future will need\, a quantum internet and whether it will be truly unhackable. In this talk\, discover everything about this exciting technology and its applications both for the quantum and current internet. From the usefulness of quantum teleportation to how this could shape our world. \nThanks to the Embassy of the Kingdom of the Netherlands\, the Royal Institution has some free tickets available for this talk. These are reserved for those that would not normally be able to attend our lectures at full cost. These tickets are available on a first come\, first served basis\, so please email events@ri.ac.uk. \nLinks:\nThe Quantum Internet: An unhackable internet of the future \nKwantuminternet
URL:https://www.a3veen.nl/event/the-quantum-internet-an-unhackable-internet-of-the-future-tv-rigb-webcast/
LOCATION:The Royal Institution of Great Britain\, 21 Albemarle Street\, London\, Verenigd Koninkrijk
CATEGORIES:Kwantuminternet
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Amsterdam:20230908T200000
DTEND;TZID=Europe/Amsterdam:20230908T213000
DTSTAMP:20260418T133322
CREATED:20231117T164423Z
LAST-MODIFIED:20231117T172400Z
UID:98764-1694203200-1694208600@www.a3veen.nl
SUMMARY:From black holes to quantum computing - with Marika Taylor
DESCRIPTION:How can black holes help us understand the workings of a quantum computer? \nBlack holes are believed to be the most efficient quantum computers naturally existing in our universe. Standard computers do not have the capabilities to quickly solve some of the problems and unanswered questions facing researchers\, but black holes may be able to provide insight into how quantum computers work and facilitate their development. In this talk\, discover how a quantum computer makes use of the quantum states of subatomic particles to both store and process information and explore the long-standing question of what happens if you fall into a black hole\, from a new quantum perspective. \nLinks:\nBlack holes and quantum computers
URL:https://www.a3veen.nl/event/from-black-holes-to-quantum-computing-with-marika-taylor/
LOCATION:The Royal Institution of Great Britain\, 21 Albemarle Street\, London\, Verenigd Koninkrijk
CATEGORIES:Astronomie,Kwantuminternet
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