{"id":5721,"date":"2026-02-16T16:09:00","date_gmt":"2026-02-16T15:09:00","guid":{"rendered":"https:\/\/www.quantumbw.de\/the-laend-of-quantum-technology-home\/transferbooster-anwendungsdemonstratoren\/"},"modified":"2026-03-16T15:56:05","modified_gmt":"2026-03-16T14:56:05","slug":"transferbooster-anwendungsdemonstratoren","status":"publish","type":"page","link":"https:\/\/www.quantumbw.de\/en\/the-laend-of-quantum-technology-home\/transferbooster-anwendungsdemonstratoren\/","title":{"rendered":"Transfer-Booster Anwen\u00addungs\u00addemon\u00adstra\u00adtoren"},"content":{"rendered":"<div class=\"wpb-content-wrapper\">[vc_row][vc_column][module_parallax_hero_image module_ratio=\u201cvh-wo-header\u201d position=\u201cbottom-left\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-none\u201d indentafter=\u201cindentafter-none\u201d bgcolor=\u201d\u201d module_effect=\u201ceffect-media\u201d image=\u201c5604\u201d]\n<p class=\"paragraph\"><span class=\"font-size-m font-weight-l font-color-dark\">Funding in the field of \u201cappli\u00adca\u00adtions\u201d<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-weight-l font-color-dark\"><span style=\"color: #000000; font-family: Referenz Grotesk W05 Bold;\"><span style=\"font-size: 84px;\">Funding programme \u201cTransfer-Booster for Quantum Technolo\u00adgies Demonstrators\u201d<\/span><\/span><\/span><\/p>\n[\/module_parallax_hero_image][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_free_text spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201d\u201d moduleeffect=\u201ceffect-media\u201d]\n<h2 class=\"paragraph\"><span class=\"font-size-m font-weight-l\" style=\"font-size: 35px;\">Funding in the field of \u201cappli\u00adca\u00adtions\u201d<\/span><\/h2>\n<h1><span style=\"font-family: Referenz Grotesk W05 Bold;\"><span style=\"font-size: 84px;\">Funding programme \u201cTransfer-Booster for Quantum Technolo\u00adgies Demonstrators\u201d<\/span><\/span><\/h1>\n[\/module_free_text][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_free_text spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011s\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201d\u201d moduleeffect=\u201ceffect-media\u201d]\n<p class=\"paragraph\"><span class=\"font-size-s\">With the funding programme \u2018Trans\u00adfer Booster for Quantum Technol\u00adogy Demon\u00adstra\u00adtors,\u2019 we support small, agile projects that trans\u00adlate new appli\u00adca\u00adtion ideas for quantum technol\u00adogy into feasi\u00adbil\u00adity concepts, proto\u00adtypes or demon\u00adstra\u00adtors. Researchers and indus\u00adtry partners from Baden-W\u00fcrttemberg work together in a twelve-month sprint to develop market-relevant products so that quantum technolo\u00adgies can be trans\u00adferred from research to imple\u00admen\u00adta\u00adtion more quickly.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-s\">The results will be presented and discussed on events of Quantum<sup>BW<\/sup>. You can find more infor\u00adma\u00adtio\u00adnen at <a href=\"https:\/\/www.quantumbw.de\/de\/the-laend-of-quantum-technology-home\/news\/\">NEWS<\/a>.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-s font-weight-l\"><strong>General infor\u00adma\u00adtion about the funding \u201eTrans\u00adfer Booster for Quantum Technolo\u00adgies Demonstratoren\u201c:<\/strong><\/span><\/p>\n\n<ul>\n \t<li class=\"paragraph\"><span class=\"font-size-s\"><span class=\"font-weight-l\">funding period:<\/span> Febru\u00adary 2026 until Febru\u00adary&nbsp;2027<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-s\"><span class=\"font-weight-l\">funding duration:<\/span> 12 months<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-s\"><span class=\"font-weight-l\">total funding amount<\/span>: 4.2 Millio\u00adnen&nbsp;Euro<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-s\"><span class=\"font-weight-l\">funded<\/span> by the <a href=\"https:\/\/mwk.baden-wuerttemberg.de\/en\/home\" target=\"_blank\" rel=\"noopener\">Ministry of Science, Research and Art<\/a> as well as the <a href=\"https:\/\/wm.baden-wuerttemberg.de\/de\/startseite\" target=\"_blank\" rel=\"noopener\">Ministry of Economy, Labour and Tourism<\/a><\/span><\/li>\n<\/ul>\n[\/module_free_text][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cAURORA: Quantum-Enabled Polar\u00adiza\u00adtion of Metabo\u00adlites in Microflu\u00adidic Human Cell Culture\u201d]\n<p class=\"paragraph\"><span class=\"font-weight-l font-size-x\"><strong>Objec\u00adtives and transfer:&nbsp;<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Progress in cancer research and drug discov\u00adery is limited by the lack of labora\u00adtory tools that can reliably assess the metabolic behav\u00adior of complex cancer cell models. Metabolic changes are often the earli\u00adest indica\u00adtors of therapy response, yet current in vitro technolo\u00adgies are either destruc\u00adtive, provide only indirect readouts, or lack the sensi\u00adtiv\u00adity to capture these dynamic processes in real&nbsp;time.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">This project devel\u00adops a quantum-enabled demon\u00adstra\u00adtor that addresses this challenge. To this end, an analy\u00adsis chip that enables the handling of liquid volumes in the micro- to picol\u00aditre range in nuclear magnetic resonance analy\u00adsis is to be combined with the hyper\u00adpo\u00adlar\u00adi\u00adsa\u00adtion process. Hyper\u00adpo\u00adlar\u00adiza\u00adtion boosts the quantum signals of nuclear spins by more than 10,000-fold, enabling direct, non-invasive, real-time detec\u00adtion of metabo\u00adlites at physi\u00ado\u00adlog\u00adi\u00adcally relevant concentrations.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">The demon\u00adstra\u00adtor will provide researchers with a power\u00adful new tool for inves\u00adti\u00adgat\u00ading cancer metab\u00ado\u00adlism, evalu\u00adat\u00ading drug responses, and advanc\u00ading preci\u00adsion oncol\u00adogy approaches. By enabling reliable exper\u00adi\u00adments in human-derived tumor models, the technol\u00adogy also reduces reliance on animal testing. At the same time, it opens up a clear market oppor\u00adtu\u00adnity: the practice partner intends to market the demon\u00adstra\u00adtor as a supple\u00admen\u00adtary module to its hyper\u00adpo\u00adlariser, thereby offer\u00ading pharma\u00adceu\u00adti\u00adcal and biotech compa\u00adnies a novel platform for drug devel\u00adop\u00adment and trans\u00adla\u00adtional research.<\/span><\/p>\n<span class=\"font-size-x\"><span class=\"font-weight-l\"><strong>Coordi\u00adnat\u00ading partner:<\/strong><\/span> <a href=\"https:\/\/www.imt.kit.edu\/\" target=\"_blank\" rel=\"noopener\">Insti\u00adtute of Microstruc\u00adture Technol\u00adogy (IMT)<\/a>, Karlsruhe Insti\u00adtute of Technology<\/span>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Dr. Sylwia Barker<\/span><\/p>\n<a class=\"button button--solid-black \" href=\"mailto:sylwia.barker@kit.edu\" target=\"_self\" data-id>Contact<\/a>\n\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cFlow Demon\u00adstra\u00adtor: Demon\u00adstra\u00adtor for Quantum-Sensing Flow Meter\u00ading\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Objec\u00adtives and trans\u00adfer<\/strong>:<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Fraunhofer IPM is devel\u00adop\u00ading a quantum-sensing-based demon\u00adstra\u00adtor to meter fluid veloc\u00adi\u00adties in pipes without contact. The demon\u00adstra\u00adtor shows that the flow of liquids in pipes can be measured from the outside and without inter\u00adven\u00adtion in the line \u2013 even through metal\u00adlic pipe walls. For this purpose, the liquid is briefly magne\u00adtized and \u201ctagged\u201d with a short radio frequency signal. This tag moves through the pipe follow\u00ading the flow veloc\u00adity profile. Highly sensi\u00adtive quantum sensors detect the result\u00ading tiny changes in the magnetic field. From the time the tag needs to travel between two measur\u00ading points, the flow veloc\u00adity (\u201ctime of flight\u201d) can be calcu\u00adlated. Because the measure\u00adment uses low-frequency magnetic fields, it also works through steel and can in princi\u00adple be used for many media \u2013 from water to oils. The demon\u00adstra\u00adtor is attached to the outside of the pipe in a clamp-on fashion, which does not require any modifi\u00adca\u00adtions to the&nbsp;pipe.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Beyond the measure\u00adment of flow veloc\u00adity, the method provides additional value: it responds to the flow profile in the pipe and can reveal differ\u00adences between laminar and turbu\u00adlent flow. This helps during commis\u00adsion\u00ading, balanc\u00ading, and diagnos\u00adtics, for example to detect distur\u00adbances at an early stage without opening a system.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">The demon\u00adstra\u00adtor is tested under real-world condi\u00adtions and evalu\u00adated using clear key figures, such as accuracy, measur\u00ading range, temper\u00ada\u00adture window, and perfor\u00admance through metal. The poten\u00adtial is consid\u00ader\u00adable: in electro\u00admo\u00adbil\u00adity with oil-based cooling, in the process and chemi\u00adcal indus\u00adtries, or in test benches, it closes a gap where estab\u00adlished methods reach their limits. Patented funda\u00admen\u00adtals and success\u00adful labora\u00adtory exper\u00adi\u00adments form the basis for this project.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Coordi\u00adnat\u00ading partner:<\/span> <a href=\"https:\/\/www.ipm.fraunhofer.de\/en.html\" target=\"_blank\" rel=\"noopener\">Fraunhofer Insti\u00adtute for Physi\u00adcal Measure\u00adment Techniques IPM<\/a><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Dr. Leonhard Braun&nbsp;<\/span><\/p>\n<a class=\"button button--solid-black \" href=\"mailto:Leonhard.Braun@ipm.fraunhofer.de\" target=\"_self\" data-id>Contact<\/a>\n\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cPALVIQ: Packag\u00ading of All-Laser-manufactured Vapor-cell for Inter\u00adposer\u00adin\u00adte\u00adgrated Quantum sensors\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Objec\u00adtives and transfer:<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span style=\"font-size: 18px;\">Quantum sensors based on alkali vapor cells are consid\u00adered a key technol\u00adogy for high-precision appli\u00adca\u00adtions in naviga\u00adtion, metrol\u00adogy and indus\u00adtrial monitor\u00ading (includ\u00ading gyroscopes, magne\u00adtome\u00adters, laser frequency stabi\u00adliza\u00adtion and atomic clocks). However, their widespread adoption has so far been limited by the lack of scalable manufac\u00adtur\u00ading processes, reliable encap\u00adsu\u00adla\u00adtion and robust opto-electronic integra\u00adtion suitable for series production.<\/span><\/p>\n<p class=\"paragraph\"><span style=\"font-size: 18px;\">The PALVIQ project addresses this gap with a fully laser-fabricated, photonic integrated monolithic vapor cell based on glass inter\u00adposer technol\u00adogy and a consis\u00adtent System-in-Package (SiP) approach. At its core is a contin\u00adu\u00adous, wafer-level paral\u00adlel process chain.<\/span><\/p>\n<p class=\"paragraph\"><span style=\"font-size: 18px;\">As a trans\u00adfer\u00adable outcome, PALVIQ will deliver a photonic integrated, minia\u00adtur\u00adized spectroscopy cell for laser frequency stabi\u00adliza\u00adtion as a \u201cMinimum Viable Demon\u00adstra\u00adtor\u201d. This device imple\u00adments the essen\u00adtial subsys\u00adtems required for further appli\u00adca\u00adtions regarded as key technolo\u00adgies in quantum sensing and Position\u00ading, Naviga\u00adtion and Timing (PNT), includ\u00ading gyroscopes, atomic clocks and magne\u00adtome\u00adters and can there\u00adfore be directly transi\u00adtioned into subse\u00adquent technol\u00adogy devel\u00adop\u00adment stages.<\/span><\/p>\n<p class=\"paragraph\"><span style=\"font-size: 18px;\">PALVIQ estab\u00adlishes a key enabling technol\u00adogy for indus\u00adtrial quantum sensing: standard\u00adiz\u00adable, scalable and compat\u00adi\u00adble with exist\u00ading manufac\u00adtur\u00ading&nbsp;lines.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-weight-l\" style=\"font-size: 18px;\">Coordi\u00adnat\u00ading partner:<\/span> <a style=\"font-size: 18px; background-color: #ffffff;\" href=\"https:\/\/www.ifsw.uni-stuttgart.de\/en\/\" target=\"_blank\" rel=\"noopener\">Insti\u00adtut f\u00fcr Strahlw\u00aderkzeuge (IFSW)<\/a><span style=\"font-size: 18px;\">, Univer\u00adsity of Stuttgart<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Yassin Nasr<br class=\"linebreak\"><\/span><\/p>\n<a class=\"button button--solid-black \" href=\"mailto:yassin.nasr@ifsw.uni-stuttgart.de\" target=\"_self\" data-id>Contact<\/a>\n\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQAccelGyro: Photonis\u00adche Beschle\u00adu\u00adni\u00adgungssen\u00adsorik f\u00fcr einen Hochleis\u00adtungsin\u00ader\u00adtialsen\u00adsor\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Ziele und Transfer:<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Im Rahmen des Projekts Q\u2011AccelGyro wird an der Integra\u00adtion und Erprobung eines neuar\u00adti\u00adgen Inertial\u00adnav\u00adi\u00adga\u00adtion\u00adssen\u00adsors, basierend auf einem minia\u00adtur\u00adisierten optomech\u00adanis\u00adchen Beschle\u00adu\u00adni\u00adgungssen\u00adsors (OMAS) und einem einach\u00adsi\u00adgen Quanten-Gyroskops (QYRO) auf einer Alta\u2011X Drohne gearbeitet. Das Ziel besteht darin, die bereits im Labor erfolg\u00adreich getesteten Proto\u00adtypen von OMAS und QYRO inner\u00adhalb eines Zeitraums von zw\u00f6lf Monaten so zu modifizieren, dass sie ausre\u00adichend robust f\u00fcr den Einsatz auf einer Drohnen\u00adplat\u00adtform sind und dort in Flugver\u00adsuchen unter realen Einsatzbe\u00addin\u00adgun\u00adgen ihre Leistungs\u00adf\u00e4higkeit nachweisen k\u00f6nnen.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Das Projekt stellt sich einem zentralen Zukun\u00adft\u00ads\u00adthema: der zuver\u00adl\u00e4s\u00adsi\u00adgen Naviga\u00adtion ohne Satel\u00adlitensignale. Konven\u00adtionelle MEMS-Sensoren in Kombi\u00adna\u00adtion mit hoch perfor\u00adman\u00adten Gyroskopen erweisen sich f\u00fcr diesen Zweck bei l\u00e4ngeren Flugzeiten als zu ungenau. Dar\u00fcber hinaus sind klassis\u00adche High-End-Systeme, wie etwa faserop\u00adtis\u00adche Gyroskope, f\u00fcr den Einsatz in unbeman\u00adnten Luftfahrzeu\u00adgen aufgrund ihrer hohen Kosten und ihres hohen Gewichts wenig geeignet. Q\u2011AccelGyro schlie\u00dft diese L\u00fccke, indem es die Pr\u00e4zi\u00adsion optomech\u00adanis\u00adcher Sensorik f\u00fcr Beschle\u00adu\u00adni\u00adgungsmes\u00adsun\u00adgen mit der Minia\u00adtur\u00adisierung eines Quantengy\u00adroskops verbindet. Die Entwick\u00adlung eines Demon\u00adstra\u00adtors, der die Fehler-Stabilit\u00e4t von Labor\u00adpro\u00adto\u00adtypen mit der Praxis\u00adtauglichkeit f\u00fcr mobile Anwen\u00addun\u00adgen vereint, wird angestrebt.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Neben der technis\u00adchen Innova\u00adtion ist das Projekt von hoher strate\u00adgis\u00adcher Bedeu\u00adtung. Es er\u00f6ffnet wirtschaftliche Chancen entlang der gesamten Wertsch\u00f6p\u00adfungs\u00adkette \u2013 von photonis\u00adchen Zulief\u00ader\u00adern \u00fcber System\u00adinte\u00adgra\u00adtoren bis hin zu Anwen\u00addern in den Bereichen Luftfahrt und Mobilit\u00e4t. Die Ergeb\u00adnisse sind von Dual-Use-Relevanz, da sie sowohl in zivilen Bereichen wie der Logis\u00adtik, der urbanen Luftmo\u00adbil\u00adit\u00e4t und der kritis\u00adchen Infra\u00adstruk\u00adtur als auch in sicher\u00adheit\u00adsrel\u00ade\u00advan\u00adten Anwen\u00addun\u00adgen der Inertial\u00adnav\u00adi\u00adga\u00adtion zur Absicherung gegen Ausf\u00e4lle von Satel\u00adliten\u00adnav\u00adi\u00adga\u00adtion\u00adssys\u00adte\u00admen einge\u00adsetzt werden k\u00f6nnen.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\">Koordinieren\u00adder Partner: <\/span><a href=\"https:\/\/www.dlr.de\/de\/qt\/\" target=\"_blank\" rel=\"noopener\"><span class=\"font-size-x\">DLR-Institut f\u00fcr Quantentechnologien<\/span><\/a><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQ\u2011NOVA: Quantum-enhanced NMR with Novel Oscillator-based Proto\u00adcols and Valida\u00adtion\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Ziele und Transfer:<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">NMR-Spektroskopie (Kernspin\u00adres\u00ado\u00adnanz) liefert hochspez\u00adi\u00adfis\u00adche Einblicke in Molek\u00fcle \u2013 ist bislang aber gro\u00df, teuer und h\u00e4ufig zu unempfind\u00adlich f\u00fcr Anwen\u00addun\u00adgen au\u00dfer\u00adhalb spezial\u00adisierter Labore. Unser Vorhaben \u00fcberf\u00fchrt NMR in ein kompak\u00adtes, empfind\u00adliches Niederfeld-Format: Dazu kombinieren wir eine neuar\u00adtige, totzeit\u00adfreie Detek\u00adtion mit spannungs\u00adges\u00adteuerten Oszil\u00adla\u00adtoren (VCOs) und Parawasserstoff-induzierter Hyper\u00adpo\u00adlar\u00adi\u00adsa\u00adtion (PHIP). PHIP verst\u00e4rkt das NMR-Signal um Gr\u00f6\u00dfenord\u00adnun\u00adgen; der VCO-Detektor erfasst es unmit\u00adtel\u00adbar nach und sogar w\u00e4hrend der Anregung. Beides zusam\u00admen ist entschei\u00addend, um auch kurzlebige Signale sicher zu messen. Damit werden quanten\u00admech\u00ada\u00adnisch erzeugte Spinpop\u00adu\u00adla\u00adtio\u00adnen (Hyper\u00adpo\u00adlar\u00adi\u00adsa\u00adtion) mit einem klassisch arbei\u00adt\u00aden\u00adden, aber quantensen\u00adsi\u00adtiven Detek\u00adtor erfasst \u2013 eine Verkn\u00fcp\u00adfung zwischen Quanten- und klassis\u00adcher Physik.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Ziel ist ein anwen\u00addungsna\u00adher Demon\u00adstra\u00adtor mit einer Konzen\u00adtra\u00adtionsempfind\u00adlichkeit im Zielbere\u00adich um 10 \u03bcM f\u00fcr relevante kleine Molek\u00fcle. Damit schaf\u00adfen wir die Grund\u00adlage f\u00fcr portable, kosten\u00adef\u00adfiziente NMR-Sensoren, die perspek\u00adtivisch in der Medizin (z. B. metabolis\u00adches Patien\u00adten\u00admon\u00adi\u00adtor\u00ading), der Umwelt\u00adan\u00ada\u00adlytik (z. B. Spuren\u00adstoffe) und der indus\u00adtriellen Prozess\u00fcberwachung einge\u00adsetzt werden k\u00f6nnen.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Das Konsor\u00adtium vereint drei komple\u00admen\u00adt\u00e4re St\u00e4rken aus Baden-W\u00fcrttemberg:<\/span><\/p>\n\n<ul>\n \t<li class=\"paragraph\"><span class=\"font-size-x\">Univer\u00adsit\u00e4t Stuttgart (IIS): Design und Aufbau des VCO-Detektors, Elektronik, Magnet\/Spulen, FPGA-Auslese; Integra\u00adtion zum Gesamtdemonstrator.<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-x\">Univer\u00adsit\u00e4t Ulm (ICQ): Quanten\u00admech\u00ada\u00adnis\u00adche Model\u00adlierung und Simula\u00adtion der nicht\u00adlin\u00adearen Detek\u00adtion\u00ads\u00admodi zur optimalen Senso\u00adrans\u00adteuerung und \u2011ausle\u00adsung.<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-x\">Praxis\u00adpart\u00adner: PHIP-Hyperpolarisation, Bereit\u00adstel\u00adlung von Proben\/Workflows und anwen\u00addungsnahe Systemtests.<\/span><\/li>\n<\/ul>\n<p class=\"paragraph\"><span class=\"font-size-x\">Inner\u00adhalb von zw\u00f6lf Monaten wird der Demon\u00adstra\u00adtor entwick\u00adelt, integri\u00adert und in einem realis\u00adtis\u00adchen Anwen\u00addungsszenario validiert. Auf Basis der Demon\u00adstra\u00adtion bereiten wir Anschlus\u00adsak\u00adtiv\u00adit\u00e4ten vor \u2013 von Minia\u00adtur\u00adisierung und Erh\u00f6hung der Skalier\u00adbarkeit \u00fcber Pilotan\u00adwen\u00addun\u00adgen bis hin zu IP-basierter Verwertung.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Koordinieren\u00adder Partner:<\/span> <a href=\"https:\/\/www.iis.uni-stuttgart.de\/de\/\" target=\"_blank\" rel=\"noopener\">Insti\u00adtut f\u00fcr Intel\u00adli\u00adgente Sensorik (IIS)<\/a>, Univer\u00adsit\u00e4t Stuttgart<\/span><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQuantis: Quanten\u00adsensorik f\u00fcr Nachhaltigkeit und Sicher\u00adheit\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Ziele und Transfer:<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Das Vorhaben Quantis zielt auf die Entwick\u00adlung und Demon\u00adstra\u00adtion innov\u00ada\u00adtiver zerst\u00f6rungs\u00adfreier Pr\u00fcfver\u00adfahren (ZfP) auf Basis quantensen\u00adsorischer Magnet\u00adfeldmes\u00adsun\u00adgen ab. Im Zentrum stehen hochsen\u00adsi\u00adtive Quantensen\u00adsoren mit NV-Zentren in Diaman\u00adten, die magnetis\u00adche Felder in bislang nicht erreichter Empfind\u00adlichkeit nach St\u00e4rke und Richtung erfassen k\u00f6nnen. Damit er\u00f6ffnet das Projekt neue M\u00f6glichkeiten zur Zustands\u00adbe\u00adw\u00ader\u00adtung sicher\u00adheit\u00adsrel\u00ade\u00advan\u00adter Materi\u00adalien \u2013 kontak\u00adt\u00adlos, ressourcenscho\u00adnend und perspek\u00adtivisch inline-f\u00e4hig.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Der geplante Anwen\u00addungs\u00addemon\u00adstra\u00adtor adressiert zwei praxis\u00adnahe Use Cases aus dem Bauwe\u00adsen und dem produzieren\u00adden Gewerbe.<\/span><\/p>\n\n<ul>\n \t<li class=\"paragraph\"><span class=\"font-size-x\">Im Baukon\u00adtext wird die zerst\u00f6rungs\u00adfreie Erfas\u00adsung von Bewehrungslage und \u2011zustand in tragen\u00adden Stahlbe\u00adton\u00adbauteilen unter\u00adsucht. Ziel ist es, Korro\u00adsion\u00adss\u00adch\u00e4\u00adden wie Br\u00fcche oder fl\u00e4chige Querschnittsver\u00adluste zuver\u00adl\u00e4s\u00adsig zu detek\u00adtieren und damit die Wiederver\u00adwen\u00addung von Bauteilen im Sinne der Kreis\u00adlaufwirtschaft zu unter\u00adst\u00fctzen. Dies leistet einen direk\u00adten Beitrag zu Ressourcenscho\u00adnung, CO\u2082-Reduktion und Planungssicher\u00adheit bei Genehmigungsprozessen.<\/span><\/li>\n \t<li class=\"paragraph\"><span class=\"font-size-x\">Im indus\u00adtriellen Umfeld liegt der Fokus auf der Inline-Fr\u00fcherkennung von Fehlstellen in schwach magnetis\u00adchen Dr\u00e4hten f\u00fcr technis\u00adche Federn. Durch den Einsatz quantensen\u00adsorischer Magnet\u00adfeldmes\u00adsun\u00adgen sollen material- und prozess\u00adbe\u00add\u00adingte Defekte bereits zu Beginn der Ferti\u00adgung identi\u00adfiziert werden, um Ausschuss ganzer Chargen zu vermei\u00adden und Qualit\u00e4t sowie Wirtschaftlichkeit nachhaltig zu verbessern.<\/span><\/li>\n<\/ul>\n<p class=\"paragraph\"><span class=\"font-size-x\">Das inter\u00addiszi\u00adplin\u00e4re Konsor\u00adtium gew\u00e4hrleis\u00adtet eine enge Verzah\u00adnung von Grund\u00adla\u00adgenkom\u00adpe\u00adtenz, Anwen\u00addungser\u00adfordernissen und technol\u00ado\u00adgis\u00adcher Umset\u00adzung. Insge\u00adsamt demon\u00adstri\u00adert das Projekt das Poten\u00adzial quantensen\u00adsorischer Technolo\u00adgien als Schl\u00fcs\u00adsel\u00adbaustein f\u00fcr sichere, nachhaltige und wettbe\u00adwerb\u00ads\u00adf\u00e4hige Produktions- und Bauprozesse.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\"><strong>Koordinieren\u00adder Partner<\/strong>: <\/span><a href=\"https:\/\/www.mpa.uni-stuttgart.de\/\" target=\"_blank\" rel=\"noopener\">Materi\u00adal\u00adpr\u00fc\u00adfungsanstalt (MPA)<\/a>, Univer\u00adsit\u00e4t Stuttgart<\/span><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQuID-Neuro: Quantum bioan\u00ada\u00adlyt\u00adi\u00adcal integra\u00adtion for real-time diagnos\u00adtics in neuro-oncology\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Objec\u00adtives and trans\u00adfer<\/strong>:<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">QuID-Neuro closes a key gap in brain tumor surgery (glioma surgery): the lack of fast and reliable molec\u00adu\u00adlar guidance at the operat\u00ading table. The consor\u00adtium from the Univer\u00adsity of Stuttgart and the Univer\u00adsity Medical Center Freiburg is trans\u00adfer\u00adring a highly sensi\u00adtive quantum sensor (NV-NMR) into the clini\u00adcal context. The goal is the specific detec\u00adtion of certain markers and lactates in micro\u00adliter samples, with results within a surgery-compatible 30-minute window.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">In a 12-month feasi\u00adbil\u00adity study, the exist\u00ading NV-NMR setup is being optimized for clini\u00adcal matri\u00adces: hyper\u00adpo\u00adlar\u00adiza\u00adtion (DNP\/PHIP), improved pulse sequences, and repet\u00adi\u00adtive readouts increase sensi\u00adtiv\u00adity; microflu\u00adidics and on-cartridge condi\u00adtion\u00ading ensure selec\u00adtiv\u00adity in complex cerebrospinal fluids (CSF). The results will be compared with current methods, e.g.,&nbsp;LC-MS.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">What is new is the first quanti\u00adta\u00adtively validated use of NV-NMR on real clini\u00adcal samples and the contin\u00adu\u00adous bench-to-bedside chain in Baden-W\u00fcrttemberg. The project lays the techni\u00adcal and clini\u00adcal founda\u00adtion for a compact point-of-care module and thus addresses \u201creal-time\u201d diagnos\u00adtics. The expected benefits range from precise intra\u00adop\u00ader\u00ada\u00adtive strat\u00adi\u00adfi\u00adca\u00adtion and improved resec\u00adtion decisions to short\u00adened diagnos\u00adtic pathways. With a clear exploita\u00adtion plan (open access results after IP review, SOP sharing), QuID-Neuro strength\u00adens the Quantum<sup>BW<\/sup> ecosys\u00adtem and prepares the demon\u00adstra\u00adtor for the next&nbsp;phase.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Coordi\u00adnat\u00ading partner:<\/span> <a href=\"https:\/\/www.pi3.uni-stuttgart.de\/\" target=\"_blank\" rel=\"noopener\">3rd Insti\u00adtute of Physics<\/a>, Univer\u00adsity of Stuttgart<\/span><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQuMagWe: Quantum magne\u00adtom\u00ade\u00adtry for magneti\u00adsa\u00adtion curves of materi\u00adals\u201d]\n<p class=\"paragraph\"><span class=\"font-weight-l font-size-x\"><strong>Objec\u00adtives and transfer:<\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">The QuMagWe project is devel\u00adop\u00ading a novel quantum\u2011sensor-based measure\u00adment technol\u00adogy for captur\u00ading complete magne\u00adti\u00adza\u00adtion curves (B\u2011H hystere\u00adsis loops) in indus\u00adtri\u00adally relevant materi\u00adals, partic\u00adu\u00adlarly electri\u00adcal steels used in electric motors. At its core is a specially devel\u00adoped NV sensor module that enables high\u2011resolution and highly sensi\u00adtive measure\u00adments on micro\u2011tensile samples \u2014 both in the unloaded state and under defined mechan\u00adi\u00adcal stress. In addition, widefield and scanning\u2011probe magne\u00adtom\u00ade\u00adtry are used to option\u00adally obtain imaging magnetic field information.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">The goal is the direct obser\u00adva\u00adtion of magnetic domain evolu\u00adtion, pinning effects, and texture\u2011induced anisotropies that are influ\u00adenced by manufac\u00adtur\u00ading processes and mechan\u00adi\u00adcal loading. The technol\u00adogy enables nonde\u00adstruc\u00adtive, microscale analy\u00adsis of magnetic mater\u00adial proper\u00adties and opens new possi\u00adbil\u00adi\u00adties for quality control, process devel\u00adop\u00adment, and predic\u00adtive mainte\u00adnance in electro\u00admo\u00adbil\u00adity and mechan\u00adi\u00adcal engineering.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">The project is jointly carried out by Fraunhofer IAF (sensor devel\u00adop\u00adment, photon\u00adics, NV\u2011diamond optimiza\u00adtion) and Fraunhofer IWM (materi\u00adals testing, micro\u00adme\u00adchan\u00adi\u00adcal tests, appli\u00adca\u00adtion trans\u00adfer). It strength\u00adens the quantum ecosys\u00adtem of Baden\u2011W\u00fcrttemberg through an industry\u2011driven light\u00adhouse use case with direct links to key sectors, creat\u00ading poten\u00adtial for spin\u2011offs, IP gener\u00ada\u00adtion, and sustain\u00adable value creation along the entire process chain.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Coordi\u00adnat\u00ading partner:<\/span> <a href=\"https:\/\/www.iaf.fraunhofer.de\/en.html\" target=\"_blank\" rel=\"noopener\">Fraunhofer Insti\u00adtute for Applied Solid State Physics IAF<\/a><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Dr. Philipp D\u2019Astolfo<br class=\"linebreak\"><\/span><\/p>\n<p class=\"paragraph\"><a class=\"button button--solid-black \" href=\"mailto:philipp.d-astolfo@iaf.fraunhofer.de\" target=\"_self\" data-id>Contact<\/a><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cQ.Weight: NV-based Quantum sensors in weigh\u00ading technol\u00adogy\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Objec\u00adtive and trans\u00adfer<\/strong>:<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">What if, weight scales were showing the true weight at any time without regular calibra\u00adtion, adjust\u00adment? Quantum sensors offer the oppor\u00adtu\u00adnity to make this vision a reality, due to their inher\u00adent drift-free measure\u00adment princi\u00adple. This makes them capable to show the true measure\u00adment value at any time. This scenario is the approach of the Q.Weight project. The goal is to setup a quantum-based weight scale demon\u00adstra\u00adtor. The devel\u00adop\u00adment of this sensor is part of Hahn-Schickard as a well-established research and devel\u00adop\u00adment insti\u00adtute in the area of micro assem\u00adbly technol\u00adogy with many years of experi\u00adence in sensor devel\u00adop\u00adment. There\u00adfore, the \u03c0\u2011Mk1 platform, which was devel\u00adoped at the insti\u00adtute in the BMFTR-funded project <a href=\"https:\/\/qoool-sensing.org\/de\" target=\"_blank\" rel=\"noopener\">QOOOL Sensing<\/a>, is used as the start\u00ading point for the quantum sensor demon\u00adstra\u00adtor in this project. To grow from a cost-driven sensor to a high-performance sensor, the used diamond plays an impor\u00adtant rule. For this reason, Fraunhofer IAF contributes application-specific diamonds to the project. Further compo\u00adnents need to be enabled to reach high perfor\u00admance. All together, these compo\u00adnents will be integrated into the \u03c0\u2011Mk1 platform and connected to appro\u00adpri\u00adate measure\u00adment devices. The quantum sensor will be integrated into a weight scale and the proof of princi\u00adple will be demon\u00adstrated. Addition\u00adally, a more general quantum sensor demon\u00adstra\u00adtor kit for test measure\u00adments at inter\u00adested compa\u00adnies will be setup, to allow a low-threshold access to quantum technologies.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Coordi\u00adnat\u00ading partner: <\/span><a href=\"https:\/\/www.hahn-schickard.de\/\" target=\"_blank\" rel=\"noopener\">Hahn-Schickard-Gesellschaft f\u00fcr angewandte Forschung e.V.<\/a><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-weight-l font-size-x\">Contact person:<\/span><span class=\"font-size-x\"> Dr. Daniela Walter<\/span><\/p>\n<a class=\"button button--solid-black \" href=\"mailto:Daniela.Walter@Hahn-Schickard.de\" target=\"_self\" data-id>Contact<\/a>\n\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cSeQuenZell: Sensors based on quantum technol\u00adogy for the analy\u00adsis of battery cells\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x font-weight-l\"><strong>Objec\u00adtives and trans\u00adfer<\/strong>:<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Within the SeQuen\u00adZell project, battery test cells are being devel\u00adoped with an integrated quantum sensor based on near-surface nitrogen-vacancy centers embed\u00added in a diamond membrane. The quantum sensor, includ\u00ading the required microwave struc\u00adtures, is integrated into the optical access of the labora\u00adtory test cell. The aim is to resolve local current density varia\u00adtions that can be linked to battery degra\u00adda\u00adtion mecha\u00adnisms. In addition, the project will also explore other measure\u00adment proto\u00adcols that provide insights into, for example, the local distri\u00adb\u00adu\u00adtion of ion concen\u00adtra\u00adtion and micro\u00adscopic states of charge distri\u00adb\u00adu\u00adtion within the battery. All of this is pursued with the goal of estab\u00adlish\u00ading a comple\u00admen\u00adtary measure\u00adment method\u00adol\u00adogy to the already exist\u00ading optical and physi\u00adcal measure\u00adment techniques, thereby enabling deeper insights into battery state and degra\u00adda\u00adtion mecha\u00adnisms that have not been possi\u00adble until&nbsp;now.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Coordini\u00adat\u00ading partner:<\/span> <a href=\"https:\/\/www.dlr.de\/en\/tt\" target=\"_blank\" rel=\"noopener\">DLR-Institute of Engineer\u00ading Thermodynamics<\/a><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Dr. Dennis Kopljar<\/span><\/p>\n<p class=\"paragraph\"><a class=\"button button--solid-black \" href=\"mailto:dennis.kopljar@dlr.de\" target=\"_self\" data-id>Contact<\/a><\/p>\n[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_accordion inverted_content=\u201cbright\u201d trigger_titel_styling=\u201ctrue\u201d trigger_titel_font_size=\u201cfont-size\u2011s\u201d trigger_titel_font_weight=\u201cfont-weight\u2011l\u201d trigger_titel_font_color=\u201cfont-color-dark\u201d trigger_marker=\u201cangle\u201d trigger_position=\u201cright\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201cbg-color-gray\u201d module_effect=\u201ceffect-media\u201d trigger_titel=\u201cTRIQ: Trans\u00adfer and integra\u00adtion of TFLN for quantum commu\u00adni\u00adca\u00adtion\u201d]\n<p class=\"paragraph\"><span class=\"font-size-x\"><strong><span class=\"font-weight-l\">Objec\u00adtive and transfer:<\/span><\/strong><\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\">Researchers aim to measur\u00adably improve the perfor\u00admance of fiber-based quantum commu\u00adni\u00adca\u00adtion and accel\u00ader\u00adate its trans\u00adfer into indus\u00adtrial use. By employ\u00ading thin-film lithium niobate modula\u00adtors, a signif\u00adi\u00adcant increase in modula\u00adtion bandwidth, signal quality, and stabil\u00adity is expected to be achieved. In addition, barri\u00aders to the indus\u00adtrial adoption of quantum-secure commu\u00adni\u00adca\u00adtion are intended to be reduced.<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\"><strong>Coordi\u00adnat\u00ading partner: <\/strong><\/span><a href=\"https:\/\/www.kip.uni-heidelberg.de\/photon\/\" target=\"_blank\" rel=\"noopener\">Kirchhoff-Institut for Physics<\/a>, Univer\u00adsity of Heidelberg<\/span><\/p>\n<p class=\"paragraph\"><span class=\"font-size-x\"><span class=\"font-weight-l\">Contact person:<\/span> Prof. Dr. Wolfram Pernice<\/span><\/p>\n<a class=\"button button--solid-black \" href=\"mailto:wolfram.pernice@kip.uni-heidelberg.de\" target=\"_self\" data-id>Contact<\/a>[\/module_accordion][\/vc_column][\/vc_row][vc_row css_animation=\u201cnone\u201d][vc_column][module_free_text spacebefore=\u201cspacebefore\u2011m\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201d\u201d moduleeffect=\u201ceffect-media\u201d]\n<h2><span class=\"font-size-l font-weight-l\">Weitere Infor\u00adma\u00adtio\u00adnen<\/span><\/h2>\n[\/module_free_text][\/vc_column][\/vc_row][vc_row css_animation=\u201cnone\u201d][vc_column]<section class=\"module module-teaser-swiper effect-media \">    <div class=\"module__outer\" id>        <div class=\"module__outer__inner spacebefore-none spaceafter-m indentbefore-xs indentafter-xs\">            <div class=\"module-slidex default \" data-opt-loop=\"true\" data-opt-autoplay data-opt-freemode data-opt-navigation data-opt-pagination data-opt-origin data-opt-perview=\"3\" data-opt-duration data-opt-rendermode=\"precision\" data-opt-breakpointsm=\"{&quot;slides&quot;:{&quot;perView&quot;: 1.25, &quot;spacing&quot;: 40}}\" data-opt-breakpointmd=\"{&quot;slides&quot;:{&quot;perView&quot;: 2.25, &quot;spacing&quot;: 40}}\" data-opt-breakpointlg=\"{&quot;slides&quot;:{&quot;perView&quot;: 3, &quot;spacing&quot;: 40}}\">                <div class=\"keen-slider\"><div class=\"slidex__slide\">    <div class=\"teaser-box below\">        <a class=\"teaser-box__link\" href=\"https:\/\/mwk.baden-wuerttemberg.de\/de\/service\/presse\/pressemitteilung\/pid\/42-millionen-euro-fuer-quantentechnologie-demonstratoren-2\" target=\"_blank\" role=\"link\" aria-label=\"More about Pressemitteilung der Ministerien zum Start der F\u00f6rderlinie\"><div class=\"teaser-box__link__media\"><img loading=\"lazy\" decoding=\"async\" width=\"800\" height=\"600\" src=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2026\/02\/Visual_QBW_421.png\" class=\"teaser-box__link__media__image\" alt srcset=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2026\/02\/Visual_QBW_421.png 800w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2026\/02\/Visual_QBW_421-640x480.png 640w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2026\/02\/Visual_QBW_421-768x576.png 768w\" sizes=\"auto, (max-width: 800px) 100vw, 800px\">            <\/div>            <div class=\"teaser-box__link__details\">                <h3 class=\"teaser-box__link__details__headline font-size-m font-weight-l font-color-dark \">Pressemit\u00adteilung der Minis\u00adte\u00adrien zum Start der F\u00f6rderlinie<\/h3>            <\/div>        <\/a>    <\/div><\/div><div class=\"slidex__slide\">    <div class=\"teaser-box below\">        <a class=\"teaser-box__link\" href=\"https:\/\/www.quantumbw.de\/de\/the-laend-of-quantum-technology-home\/news\/\" target=\"_blank\" role=\"link\" aria-label=\"More about Weitere News\"><div class=\"teaser-box__link__media\"><img loading=\"lazy\" decoding=\"async\" width=\"950\" height=\"500\" src=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2023\/07\/Quantum-Effects-Key-Visual.png\" class=\"teaser-box__link__media__image\" alt=\"Die Quantum Effects als Fachmesse und Konferenz f\u00fcr Quantentechnologien findet erstmalig am 10. und 11. Oktober 2023 auf der Messe Stuttgart statt.\" srcset=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2023\/07\/Quantum-Effects-Key-Visual.png 950w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2023\/07\/Quantum-Effects-Key-Visual-640x337.png 640w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2023\/07\/Quantum-Effects-Key-Visual-768x404.png 768w\" sizes=\"auto, (max-width: 950px) 100vw, 950px\">                <figcaption class=\"media__caption white\">\u00a9 Landesmesse Stuttgart GmbH<\/figcaption>            <\/div>            <div class=\"teaser-box__link__details\">                <h3 class=\"teaser-box__link__details__headline font-size-m font-weight-l font-color-dark \">Weitere News<\/h3>            <\/div>        <\/a>    <\/div><\/div><div class=\"slidex__slide\">    <div class=\"teaser-box below\">        <a class=\"teaser-box__link\" href=\"https:\/\/www.thelaend.de\/wall-of-opportunities\/\" target=\"_blank\" role=\"link\" aria-label=\"More about The L\u00c4ND Wall of Opportunities\"><div class=\"teaser-box__link__media\"><img loading=\"lazy\" decoding=\"async\" width=\"1536\" height=\"1024\" src=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage.jpg\" class=\"teaser-box__link__media__image\" alt=\"Junger Mann springt kopf\u00fcber in ein Gew\u00e4sser und wird dabei von zwei jungen t\u00e4towirten Frauen auf einem Schlauchboot beobachtet.\" srcset=\"https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage.jpg 1536w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage-640x427.jpg 640w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage-1024x683.jpg 1024w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage-768x512.jpg 768w, https:\/\/www.quantumbw.de\/wp-content\/uploads\/2024\/09\/laend_tm-store_3zu2_1920x1280_live-stage-1400x933.jpg 1400w\" sizes=\"auto, (max-width: 1536px) 100vw, 1536px\">                <figcaption class=\"media__caption white\">\u00a9 The&nbsp;L\u00c4ND<\/figcaption>            <\/div>            <div class=\"teaser-box__link__details\">                <h3 class=\"teaser-box__link__details__headline font-size-m font-weight-l font-color-dark \">The L\u00c4ND Wall of Opportunities<\/h3>            <\/div>        <\/a>    <\/div><\/div>                <\/div>            <\/div>        <\/div>    <\/div><\/section>[\/vc_column][\/vc_row]<\/div>","protected":false},"excerpt":{"rendered":"[vc_row][vc_column][module_parallax_hero_image module_ratio=\u201cvh-wo-header\u201d position=\u201cbottom-left\u201d spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-none\u201d indentafter=\u201cindentafter-none\u201d bgcolor=\u201d\u201d module_effect=\u201ceffect-media\u201d image=\u201c5604\u201d] Funding in the field of \u201cappli\u00adca\u00adtions\u201d Funding programme \u201cTransfer-Booster for Quantum Technolo\u00adgies Demon\u00adstra\u00adtors\u201d [\/module_parallax_hero_image][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_free_text spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011m\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201d\u201d moduleeffect=\u201ceffect-media\u201d] Funding in the field of \u201cappli\u00adca\u00adtions\u201d Funding programme \u201cTransfer-Booster for Quantum Technolo\u00adgies Demon\u00adstra\u00adtors\u201d [\/module_free_text][\/vc_column][\/vc_row][vc_row css_animation=\u201cfadeInUp\u201d][vc_column][module_free_text spacebefore=\u201cspacebefore-none\u201d spaceafter=\u201cspaceafter\u2011s\u201d indentbefore=\u201cindentbefore-xs\u201d indentafter=\u201cindentafter-xs\u201d bgcolor=\u201d\u201d moduleeffect=\u201ceffect-media\u201d] With the funding&nbsp;[\u2026]","protected":false},"author":21,"featured_media":5625,"parent":2674,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"inline_featured_image":false,"wp_typography_post_enhancements_disabled":false,"footnotes":""},"class_list":["post-5721","page","type-page","status-publish","has-post-thumbnail","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/pages\/5721","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/users\/21"}],"replies":[{"embeddable":true,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/comments?post=5721"}],"version-history":[{"count":9,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/pages\/5721\/revisions"}],"predecessor-version":[{"id":5744,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/pages\/5721\/revisions\/5744"}],"up":[{"embeddable":true,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/pages\/2674"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/media\/5625"}],"wp:attachment":[{"href":"https:\/\/www.quantumbw.de\/en\/wp-json\/wp\/v2\/media?parent=5721"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}