BEGIN:VCALENDAR VERSION:2.0 PRODID:Icfo X-PUBLISHED-TTL:P1W BEGIN:VEVENT UID:6a24d7f909d87 DTSTART:20250711T080000Z SEQUENCE:0 TRANSP:OPAQUE DTEND:20250711T090000Z LOCATION:Seminar Room SUMMARY:ICFO | MASSIMO BORGHI CLASS:PUBLIC DESCRIPTION:Light-based quantum technologies utilize photons as fundamental carriers of information\, taking advantage of their long coherence times\ , fast propagation speeds and ease of manipulation. Well-explored degrees of freedom for encoding quantum information include polarization\, orbital angular momentum\, path\, and time of arrival. \;Less investigated is frequency-bin encoding\, in which quantum information is encoded in discr ete frequency (energy) bands. This approach has great potential because it inherently supports high-dimensional entanglement\, is compatible with ex isting fiber-optic infrastructure\, and allows for easy manipulation of th e quantum states using standard telecommunication fiber components. Freque ncy-bin entangled states can be efficiently generated in integrated photon ics by exploiting spontaneous parametric processes in microring resonators . In this talk\, we will explore our latest works in quantum information p rocessing with frequency bins and resonators\, from the generation of non- classical states to their applications\, including our recent demonstratio ns frequency bin entanglement based quantum key distribution and gaussian boson sampling.\n \; DTSTAMP:20260607T023121Z END:VEVENT END:VCALENDAR