BEGIN:VCALENDAR VERSION:2.0 PRODID:Icfo X-PUBLISHED-TTL:P1W BEGIN:VEVENT UID:69fa6c30a0c03 DTSTART:20241209T110000Z SEQUENCE:0 TRANSP:OPAQUE DTEND:20241209T120000Z LOCATION:Seminar Room SUMMARY:ICFO | JAEMIN KIM CLASS:PUBLIC DESCRIPTION:Abstract: \;\nQuantum networks have the potential to signif icantly advance quantum information processes\, including computation\, co mmunication\, and metrology. At the heart of these networks lies entanglem ent\, a crucial resource that must be effectively managed.\nCurrent strate gies for distributing entanglement among distant parties include quantum r epeaters and entanglement distillation. However\, these methods are constr ained by current Noisy Intermediate-Scale Quantum (NISQ) technologies\, wh ere noise in measurements and operations significantly reduces entanglemen t fidelity\, limiting their effectiveness.\nMy presentation addresses two key questions:\nFirst\, how can entanglement be distributed in a quantum n etwork while overcoming the limitations of NISQ technologies\, particularl y focusing on measurement errors? To address this\, I propose a purificati on protocol for noisy measurement and state preparation.\nSecond\, how can a certification method for entanglement within these networks be develope d? I suggest an approach called \"teleportation-based estimation of observ ables\,\" incorporating entanglement witnesses to verify entanglement. DTSTAMP:20260505T221616Z END:VEVENT END:VCALENDAR