Location: New York,NY, USA
JobID: 210525166
Category: Applied Research
JobSchedule: Full time
Posted Date: 2024-06-03T21:33:27+00:00
JobShift:
Base Pay/Salary: New York,NY $137,750.00-$195,000.00
Are you looking for an exciting opportunity to join a dynamic and growing team in a fast paced and challenging area? This is a unique opportunity for you to work with Global Technology Applied Research (GTAR) center at JPMorgan Chase & Co. (JPMC). The goal of GTAR is to design and conduct research across multiple frontier technologies, in order to enable novel discoveries and inventions, and to inform and develop next-generation solutions for the firm's clients and businesses.
As a quantum cryptography researcher in Global Technology Applied Research, you have solid quantum key distribution (QKD) theory background to drive quantum-safe networking innovations at JPMorgan Chase. The role will contribute to the research program of the Quantum Security and Networking team. The role is expected to collaborate with a highly interdisciplinary team, consisting of researchers and engineers from different technical disciplines, who may be located in different cities across the globe.
Job responsibilities
* Advance the quantum cryptography research program at JPMC
* Design and develop novel quantum-safe protocols for financial use cases
* Contribute to intellectual property disclosures and publish in international peer-review journals
* Contribute to establishing JPMC's reputation in the scientific field via publication of select results in prestigious venues
* Adds to team culture of diversity, equity, inclusion, and respect
Required qualifications, capabilities, and skills
* Ph.D. degree in Quantum Cryptography or Quantum Information Theory
* Proven track record in research (e.g., publications in high-impact factor journals and active participation in leading conferences like QCRYPT)
* Working knowledge of semi-definite programming and numerical optimization techniques
Preferred qualifications, capabilities, and skills
* Expertise in applied quantum cryptography with experience in designing loss-tolerant and device-independent quantum information protocols.
* Familiarity with post-quantum cryptography assumptions and their applications to quantum cryptography