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X-WR-CALNAME:QVLS | Quantum Valley Lower Saxony
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X-WR-CALDESC:Veranstaltungen für QVLS | Quantum Valley Lower Saxony
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BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250506T140000
DTEND;TZID=Europe/Berlin:20250506T170000
DTSTAMP:20260525T101147
CREATED:20250417T090617Z
LAST-MODIFIED:20250417T090639Z
UID:10002239-1746540000-1746550800@qvls.de
SUMMARY:Quantum Job Afternoon
DESCRIPTION:Was kann man mit „Quanten“ machen?\nWelche Unternehmen in unserer Region sind in der Quantentechnologie tätig?\nWie sieht Ihre Zukunft in der Quanten-Arbeitswelt aus?\nKommen Sie zum Quantum Job Afternoon und finden Sie es heraus. \nWir laden Sie ein\, verschiedene Unternehmen aus dem Bereich der Quantentechnologie kennen zu lernen. Welche Unternehmen arbeiten mit Quantentechnologien und welche Fähigkeiten sind derzeit gefragt? Diese und weitere Fragen werden wir unseren Gästen aus der Branche stellen. Anschließend können Sie bei Snacks und Getränken Ihre eigenen Fragen stellen und mit den Quantenexperten ins Gespräch kommen. Nutzen Sie die Gelegenheit\, verschiedene Unternehmen kennenzulernen und sich mit anderen Studierenden auszutauschen. \nOrt: Venture Villa\, Walderseestraße 7\, 30163 Hannover \nBitte melden Sie sich bis zum 30. April 2025 an: https://www.quantumfrontiers.de/en/current/events/quantum-job-afternoon \nPoster Download: Quantum Job Afternoon 2025 Poster (PDF)
URL:https://qvls.de/event/quantum-job-afternoon/
LOCATION:Niedersachsen
CATEGORIES:Forschung,Industrie
ATTACH;FMTTYPE=image/png:https://qvls.de/wp-content/uploads/2025/04/quantum-job-afternoon-2025-teaser.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250508T100000
DTEND;TZID=Europe/Berlin:20250508T120000
DTSTAMP:20260525T101147
CREATED:20250508T130905Z
LAST-MODIFIED:20250508T130905Z
UID:10002242-1746698400-1746705600@qvls.de
SUMMARY:Atomic Cooperative Arrays: Bio Inspired Quantum Optics and Quantum Chemistry on Neutral Atom Array Quantum Computers
DESCRIPTION:Colloquium by Susanne Yelin\, Physics Department\, Harvard University\, Cambridge\, United States of America \nTuesday\, 08. May and Friday\, 09.May 2025 \nLUH\, Building 3406\, Room 317\, Callinstr. 36\, 30167 Hannover \nAbstract: \nWhat is the potential of dense — cooperative — emitter arrays? These arrays\, already known for their use in metrology and quantum information as efficient waveguides and mirrors\, are now being studied in alternative geometries. Inspired by nature\, we investigate chiral and helical structures\, as well as ring‑shaped arrays.\nIn addition\, we introduce a digital‑analog simulation framework for strongly correlated spin models using reconfigurable qubit arrays. Our toolbox — built on Floquet engineering and hardware‑optimized multi‑qubit gates — enables programmable real‑time Hamiltonian evolution\, with an implementation proposal on Rydberg atom platforms. By combining snapshot measurements and single‑ancilla control\, we extract excitation spectra and finite‑temperature susceptibilities from a single dataset. We illustrate this approach by computing key catalytic energy levels in a polynuclear transition‑metal complex and magnetic response in a two‑dimensional spin lattice. \nAccess data for the transfer:\nZoom Access: https://us04web.zoom.us/j/932734874
URL:https://qvls.de/event/atomic-cooperative-arrays-bio-inspired-quantum-optics-and-quantum-chemistry-on-neutral-atom-array-quantum-computers/2025-05-08/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250508T160000
DTEND;TZID=Europe/Berlin:20250508T173000
DTSTAMP:20260525T101147
CREATED:20250508T131139Z
LAST-MODIFIED:20250508T131139Z
UID:10002244-1746720000-1746725400@qvls.de
SUMMARY:Searching for new physics by measuring isotope shifts and parity violation in trapped ions
DESCRIPTION:Colloquium by Diana Prado Lopes Aude Craik\, ETH\, Zürich\, Switzerland \nPTB Braunschweig\, Vieweg- Bau\, Room 234\, Braunschweig \nTitle: Searching for new physics by measuring isotope shifts and parity violation in trapped ions \nAbstract: \nIsotope shift (IS) spectroscopy of atoms and ions has been proposed as a method to search for a fifth fundamental force mediated by a hypothetical new boson in the intermediate mass range (100eV to 10MeV). The existence of this force would cause neutron-number-dependent (and hence\, isotope dependent) shifts in atomic transition frequencies. To distinguish these shifts from standard model (SM) shifts (relating\, for example\, to differences in the Coulomb potential of the nucleus between isotopes)\, one measures isotopes shifts on at least two transitions between three or more distinct pairs of isotopes. The data can then be plotted on a „King plot“\, which displays a nonlinearity if physics beyond first-order SM effects has contributed to the measured isotope shifts. \nAt the TIQI group at ETH\, we measured isotope shifts on the 729nm electric quadrupole transition between pairs of co-trapped calcium ions at 100mHz precision\, two orders of magnitude below the previous best measurement. We combined our measurements with IS measurements made by the group of Piet Schmidt on the 570nm transition in Ca14+ and improved nuclear mass measurements made by the group of Klaus Blaum\, to produce the first sub-Hz King plot [1]. King plots in calcium had previously remained linear up to the 10Hz level — our improved precision now reveals a large King non-linearity. Whilst the second-order mass shift is an expected SM source of nonlinearity\, a decomposition analysis of the nonlinearity pattern\, combined with input from our theory collaborators\, reveals evidence for at least one other contributing source. I will discuss the implications of these results both to our understanding of nuclear structure and to the search for new physics. \nFinally\, I will outline an endeavor I am now starting in my new group at ETH to perform a stringent test of the electroweak sector of the Standard Model by measuring parity violation in barium ions using entanglement-enhanced spectroscopy [2]. \n[1] A. Wilzewski et al.\, https://arxiv.org/abs/2412.10277 (2024)\n[2] D. P. L. Aude Craik\, https://arxiv.org/abs/2503.20003 (2025) \nAccess data for the transfer:\nZoom Access: https://us04web.zoom.us/j/932734874\nThis talk is part of the „Virtual Seminar on Precision Physics and Fundamental Symmetries“ series and of the SFB DQ-mat colloquium series: https://indico.cern.ch/category/12183/
URL:https://qvls.de/event/searching-for-new-physics-by-measuring-isotope-shifts-and-parity-violation-in-trapped-ions/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250509T100000
DTEND;TZID=Europe/Berlin:20250509T120000
DTSTAMP:20260525T101147
CREATED:20250508T130905Z
LAST-MODIFIED:20250508T130905Z
UID:10002243-1746784800-1746792000@qvls.de
SUMMARY:Atomic Cooperative Arrays: Bio Inspired Quantum Optics and Quantum Chemistry on Neutral Atom Array Quantum Computers
DESCRIPTION:Colloquium by Susanne Yelin\, Physics Department\, Harvard University\, Cambridge\, United States of America \nTuesday\, 08. May and Friday\, 09.May 2025 \nLUH\, Building 3406\, Room 317\, Callinstr. 36\, 30167 Hannover \nAbstract: \nWhat is the potential of dense — cooperative — emitter arrays? These arrays\, already known for their use in metrology and quantum information as efficient waveguides and mirrors\, are now being studied in alternative geometries. Inspired by nature\, we investigate chiral and helical structures\, as well as ring‑shaped arrays.\nIn addition\, we introduce a digital‑analog simulation framework for strongly correlated spin models using reconfigurable qubit arrays. Our toolbox — built on Floquet engineering and hardware‑optimized multi‑qubit gates — enables programmable real‑time Hamiltonian evolution\, with an implementation proposal on Rydberg atom platforms. By combining snapshot measurements and single‑ancilla control\, we extract excitation spectra and finite‑temperature susceptibilities from a single dataset. We illustrate this approach by computing key catalytic energy levels in a polynuclear transition‑metal complex and magnetic response in a two‑dimensional spin lattice. \nAccess data for the transfer:\nZoom Access: https://us04web.zoom.us/j/932734874
URL:https://qvls.de/event/atomic-cooperative-arrays-bio-inspired-quantum-optics-and-quantum-chemistry-on-neutral-atom-array-quantum-computers/2025-05-09/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20250511
DTEND;VALUE=DATE:20250517
DTSTAMP:20260525T101147
CREATED:20250306T143129Z
LAST-MODIFIED:20250513T122001Z
UID:10002231-1746921600-1747439999@qvls.de
SUMMARY:Frontiers of Quantum Metrology for New Physics Searches
DESCRIPTION:The Standard Model (SM) of particle physics has demonstrated remarkable predictive and descriptive capabilities across a wide range of phenomena. It has withstood extensive testing through a diverse array of methodologies encompassing various fields within physics. Notwithstanding its impressive track record\, the SM grapples with significant challenges. In fact\, it encounters a fundamental inconsistency with the very existence of our Universe. Specifically\, the Standard Model fails to elucidate the observed disparity between matter and antimatter. Moreover\, all endeavors aimed at unifying gravity with the foundational interactions delineated by the SM have thus far met with limited success. Plentiful observational data on galactic and larger scales cannot be explained based on the observed matter content in the framework of „normal gravity.“ The prevailing view is that invisible „dark matter“ dominates the matter content of the Universe . In addition\, observations indicate that the Universe is expanding at an accelerating rate\, attributing this to „dark energy”. \nThe extraordinary advances in quantum control of matter and light have been transformative for atomic and molecular precision measurements enabling probes of the most basic laws of Nature to gain a fundamental understanding of the physical Universe. Exceptional versatility\, inventiveness\, and rapid development of precision experiments supported by continuous technological advances and improved atomic and molecular theory led to rapid development of many avenues to explore new physics. Precision measurements in atomic\, molecular\, and optical (AMO) physics have lately made significant contributions to the quest for new particles and physics. \nThe main target audience would be composed of students at the master and PhD level. The program entails a series of lectures delivered by renowned experts in the domains of quantum sensors\, quantum optics\, precision metrology\, and fundamental physics. These meticulously crafted lectures are designed to equip the next generation of aspiring researchers with a comprehensive understanding of these dynamic fields. This foundational knowledge will serve as a springboard for their future contributions and accomplishments. This exceptional opportunity empowers emerging scholars to delve deeply into the latest developments and applications within the realm of quantum metrology. It prepares them to take a leading role in shaping the future of quantum research and future theories of physics. \nThe accommodation and all meals during the school will be provided by the Physikzentrum. You will be accommodated directly in the building of the Physikzentrum – the school location. \nConfirmed speakers: \n\nEric Cornell (JILA and University of Colorado)\nElina Fuchs (University of Hannover)\nAndrew Ludlow (University of Colorado and NIST)\nHolger Mueller (UC Berkeley)\nSilke Ospelkaus (University of Hannover)\nIgor Pikovsky (Stockholm University & Stevens Institute of Technology)\nSurjeet Rajendran (Johns Hopkins University)\nPiet Schmidt (PTB Braunschweig)Arne Wickenbrock (University of Mainz)
URL:https://qvls.de/event/frontiers-of-quantum-metrology-for-new-physics-searches/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250511T130000
DTEND;TZID=Europe/Berlin:20250511T180000
DTSTAMP:20260525T101147
CREATED:20250508T082818Z
LAST-MODIFIED:20250508T124236Z
UID:10002240-1746968400-1746986400@qvls.de
SUMMARY:Göttinger Quanten-Welten
DESCRIPTION:Göttingen Marketing lädt – gemeinsam mit dem Pro City e.V. – zu einem ganz besonderen Stadtfest mit verkaufsoffenem Sonntag\, den Göttinger Quanten-Welten\, ein. \nAnlässlich des Internationalen Jahres der Quantenwissenschaft und Quantentechnologie und zum 100. Jubiläum von Werner Heisenbergs weltberühmtem „Quantensprung“ feiern wir die Wissenschaft – erlebbar\, kreativ und familienfreundlich. \nDie gesamte Innenstadt verwandelt sich in sechs thematisch untergliederte Erlebnis-Welten – jede mit ihrem ganz eigenen Charakter. \nBesonderes Highlight: Um 13.15 Uhr gibt Piet Schmidt auf der Quanten-Welten-Bühne mit seinem Vortrag „Mit Uhren das Universum erforschen“ einen Einblick in seine Forschung an der Physikalisch-Technischen Bundesanstalt (PTB).
URL:https://qvls.de/event/goettinger-quanten-welten/
LOCATION:Niedersachsen
CATEGORIES:Bildung,Quantenjahr 2025
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250513T164500
DTEND;TZID=Europe/Berlin:20250513T180000
DTSTAMP:20260525T101147
CREATED:20250508T130015Z
LAST-MODIFIED:20250508T130449Z
UID:10002241-1747154700-1747159200@qvls.de
SUMMARY:Ultimate photonics: one photon\, one molecule - Talk by Prof. Stephan Götzinger from MPI Erlangen
DESCRIPTION:Physikalisches Kolloquium\nSommersemester 2025 \nDienstag 13.05.2025\, 16:45 Uhr \nHörsaal MS 3.1\, Physikzentrum\, Mendelssohnstraße 2/3 \nProf. Dr. Stephan Götzinger\nMax Planck Institute for the Science of Light\, Erlangen\, Germany\nUniversity of Erlangen–Nuremberg\, Erlangen\, Germany \nUltimate photonics:\none photon\, one molecule\nNovel concepts aiming at efficient processing of information require a strong and controlled coupling of single photons with single atomic quantum systems. In this talk\, I will first give an introduction to the efficient generation of single photons using planar dielectric antennas. These antennas allow us to collect the emission from an arbitrarily oriented single quantum emitter with >99% efficiency. By using a planar metallodielectric antenna applied to an organic molecule\, we demonstrate the most regular stream of single photons reported to date. The measured intensity fluctuations were well below the shot-noise limit and amounted to 2.2 dB squeezing. \nIn the second part of the talk\, I will discuss our efforts toward the realization of quantum networks and present experiments where photons and single solid-state emitters strongly interact. A single molecule can amplify a weak laser beam and generate nonlinear effects like three-photon amplification and four-wave mixing. To achieve an even stronger interaction\, we have coupled a single molecule to a tunable Fabry-Perot microcavity. The system is operated in the strong coupling regime of cavity quantum electrodynamics\, where a strong Purcell factor effectively turns the molecule into a twolevel quantum system. We observe 99% extinction of a laser beam\, which means that our molecule in the cavity acts almost as a perfect scatterer of photons. \nCoffee and Cookies before the talk \nInvited by Prof. Dr. Uta Schlickum\, Institut für Angewandte Physik \nTel. 0531 391 8503
URL:https://qvls.de/event/ultimate-photonics-one-photon-one-molecule/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250518T183000
DTEND;TZID=Europe/Berlin:20250518T213000
DTSTAMP:20260525T101147
CREATED:20250515T143829Z
LAST-MODIFIED:20250515T143829Z
UID:10002250-1747593000-1747603800@qvls.de
SUMMARY:Salon der Wissenschaft am 18.06.2025
DESCRIPTION:Vier 15-minütige Gesprächsrunden von 18:30 bis 21:30 Uhr \nZum vierten Mal laden der Verein ForschungRegion Braunschweig e.V. und die Stadt Braunschweig am Mittwoch\, den 18. Juni 2025 ab 18:30 Uhr zum Salon der Wissenschaft ins TRAFO Hub ein\, um mit Forscher*innen aus der Region zusammenzukommen und sich auszutauschen. \nRund 30 Wissenschaftler*innen aus den Forschungseinrichtungen der Region Braunschweig stehen in vier 15-minütigen Gesprächsrunden Rede und Antwort. Woran forschen sie? Von welcher Zukunft träumen sie? Bei der kostenlosen Veranstaltung können sich die Teilnehmenden an Einzeltischen mit den Forschenden intensiv unterhalten. Wer nicht selbst diskutieren möchte\, kann per Kopfhörer einfach einem Gespräch folgen und auf diese Weise viel Neues erfahren. \nVon Artenvielfalt über Digitalisierung\, Luftfahrt\, Quantenforschung oder Klimaschutz – im persönlichen Austausch sind der Themenvielfalt keine Grenzen gesetzt. \nIm Anschluss können die Gespräche bei Snacks von Feinkostkomplizen und Getränken der National Jürgens Brauerei fortgesetzt werden. \nWeitere Informationen zur Veranstaltung und zu allen Wissenschaftler*innen unter:\nwww.salonderwissenschaft.de \nDer Eintritt zur Veranstaltung ist kostenlos\, aber eine Anmeldung vorab erforderlich:\nhttps://salonderwissenschaft2025.eventbrite.de
URL:https://qvls.de/event/salon-der-wissenschaft-am-18-06-2025/
LOCATION:TRAFO Hub GmbH\, Sophienstraße 40\, Braunschweig\, 38118\, Germany
CATEGORIES:Bildung,Quantenjahr 2025
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250520T094500
DTEND;TZID=Europe/Berlin:20250520T171500
DTSTAMP:20260525T101147
CREATED:20250515T144443Z
LAST-MODIFIED:20250515T144443Z
UID:10002251-1747734300-1747761300@qvls.de
SUMMARY:Weltmetrologietag: 150 Jahre Meterkonvention (Livestream)
DESCRIPTION:Am diesjährigen Weltmetrologietag ist zugleich ein Jubiläum zu feiern: 150 Jahre Meterkonvention. Die großen Feierlichkeiten dazu finden natürlich in Frankreich statt\, mit einem Symposium am 20. Mai bei der UNESCO in Paris und mit einer wissenschaftlichen Konferenz zur Zukunft der Metrologie in Versailles am 21. und 22. Mai („From units to universe – future revolutions in metrology“). \nDas Symposium am 20. Mai findet im UNESCO Headquarter in Paris statt und wird live gestreamt. \nLink zum Livestream\n \nDer Livestream wird auch im PTB-Hörsaal in Braunschweig und im Anna-von-Helmholtz-Bau im Institut Berlin übertragen.
URL:https://qvls.de/event/weltmetrologietag-150-jahre-meterkonvention-livestream/
LOCATION:Niedersachsen
CATEGORIES:Bildung,Quantenjahr 2025
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250520T180000
DTEND;TZID=Europe/Berlin:20250520T193000
DTSTAMP:20260525T101147
CREATED:20250515T142543Z
LAST-MODIFIED:20250515T142543Z
UID:10002248-1747764000-1747769400@qvls.de
SUMMARY:Quantum Piano: Lecture Performance in Kooperation mit der PTB Braunschweig
DESCRIPTION:Quantum Piano ist eine Zusammenarbeit zwischen Forschenden der Quantenelektronik der Physikalisch-Technischen Bundesanstalt Braunschweig (PTB) und dem experimentellen Komponisten und Klangkünstler Thomas Tichai. In dieser Lecture Performance gibt es neben den wissenschaftlichen Hintergründen der Quantenelektronik von Dr. Lukas Grünhaupt (PTB) und der Live-Aufführung elektronischer experimenteller Kompositionen von Thomas Tichai die Möglichkeit für die Besucher*innen\, intensiv mit den Akteuren ins Gespräch zu kommen und selbst den Prototyp eines digital emulierten Quantenklaviers auszuprobieren. \nDi\, 20.05.2025\, 18-19.30 Uhr \nVeranstalter: TU Braunschweig\, Science and Art Lab\, ForschungRegion\, Stadt Braunschweig Kulturdezernat \nOrt: Waisenhausdamm 8\, 38100 Braunschweig
URL:https://qvls.de/event/quantum-piano-lecture-performance-in-kooperation-mit-der-ptb-braunschweig/
LOCATION:Niedersachsen
CATEGORIES:Bildung,Quantenjahr 2025
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20250522T160000
DTEND;TZID=Europe/Berlin:20250522T173000
DTSTAMP:20260525T101147
CREATED:20250513T121857Z
LAST-MODIFIED:20250513T121857Z
UID:10002247-1747929600-1747935000@qvls.de
SUMMARY:Ultracold Bubbles in Space: Atomic Physics Aboard the International Space Station
DESCRIPTION:Colloquium at Leibniz Universität Hannover by Nathan Lundblad\, Bates College (USA)\nLUH\, Building 1101\, Room D326\, Welfengarten 1\, 30167 Hannover\nThursday\, 22.May 2025- 16:00 – 17:30 pm \nAbstract: \nExploring the effects of geometry\, topology\, dimensionality\, and interactions on ultracold atomic ensembles has been a continually fruitful line of inquiry in the decades since the first observation of Bose-Einstein condensation (BEC). One previously unexplored configuration for ultracold ensembles is that of a bubble or shell\, where trapped atoms are confined in the vicinity of a spherical or ellipsoidal surface. Such a quantum system could offer new collective modes\, topologically-sensitive behavior of quantized vortices\, self-interference and shell collapse\, as well as the exploration of trapped ultracold systems with mm-scale spatial extent. While techniques for the generation of bubble-shaped traps have been known since 2001\, terrestrial gravity has thus far limited the convenient observation of ultracold bubbles. \nWith the construction of the NASA Cold Atom Lab (CAL) facility and its subsequent delivery in 2018 to the International Space Station (ISS) and commissioning as an orbital BEC user facility\, experimental atomic physics schemes that require a sustained microgravity environment are now possible.  I will review CAL observations of trapped bubbles of ultracold atoms\, including a variety of bubble-trap configurations that are possible with this apparatus. I will also discuss the thermodynamics of ultracold bubbles and review open questions being explored in the ongoing second science run of CAL aboard ISS\, which feature improved bubble aspect ratios and filling as well as improved imaging; I will also review upcoming changes to the CAL facility\, recent progress made with shell structures in terrestrial laboratories\, and the bubble-making potential of the Einstein Elevator. \nAccess data for the transfer: \nZoom Access: https://us04web.zoom.us/j/932734874 \nThis talk is part of the „Virtual Seminar on Precision Physics and Fundamental Symmetries“ series and of the SFB DQ-mat colloquium series:https://indico.cern.ch/category/12183/
URL:https://qvls.de/event/ultracold-bubbles-in-space-atomic-physics-aboard-the-international-space-station/
LOCATION:Niedersachsen
CATEGORIES:Bildung
END:VEVENT
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