In this webinar hosted by the Optical Cooling and Trapping Technical Group, Thomas Monz will share recent work on an entire quantum computer mounted inside a standard 19'' racks, powered from a single wall-mounted power-plug, operated in a normal office, supporting various quantum software development kits, and cloud-accessibility. Monz will complement the technical overview with proof-of-concept realizations on this device ranging from chemistry via finance to security aspects.

Subject Matter Level: Intermediate - Assumes basic knowledge of the topic

What You Will Learn:

• State of the art ion-trap quantum control
• Rack-mounted quantum technologies
• Early use-cases for quantum computers

Who Should Attend:

• Undergrads, Phd Students, PostDocs, Researchers with interest in quantum technologies
• Research institutions and companies developing in the areas of lasers, vacuum, cryo, integrated optics, as well as software companies curious to learn about accessing quantum devices

About the Presenter: Thomas Monz, Alpine Quantum Technologies GmbH

Monz started on ion-trap quantum information processing during his Masters degree, focusing on ion-photon interfaces. He moved on to quantum information processing, realizing the first Toffoli gate, pushed for a new world-record on entangling 14 ion-qubits, and implemented the first Shor algorithm without pre-computations. After a detour in Scotland working as product specialist for a laser company, he returned to Innsbruck focusing on engineering aspects. He realized the first ion-trap quantum computing fully inside a 19'' rack, which holds the new world record on entangling 24 qubits. The latest achievement of his products includes the demonstration of a universal logical gate-set, besides proof of concepts in finance, chemistry, and security.