Ellicott City, MD, United States of America

James D Franson

USPTO Granted Patents = 9 (Patent Applications = 1)

Average Co-Inventor Count = 2.1

ph-index = 5

Forward Citations = 138(Granted Patents)

Company Filing History:

8 out of 3,688

Johns Hopkins University

patents

1 out of 1,942

University System of Maryland

patents

Years Active: 1993-2021

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9 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 10884189 - Nanofiber-segment ring resonator (2021-01-05),

2. 7355769 - Method and apparatus for single-photon source and quantum memory (2008-04-08),

3. 7236667 - Techniques for use of nanocavities to enhance quantum processing with photons and the Zeno effect (2007-06-26),

4. 7019875 - Method and apparatus for single-photon source and quantum memory (2006-03-28),

5. 7006267 - Techniques for high fidelity quantum teleportation and computing (2006-02-28),

6. 6995404 - Techniques for quantum processing with photons and the zeno effect (2006-02-07),

7. 6741374 - Techniques for performing logic operations using quantum states of single photons (2004-05-25),

8. 6678450 - Optical method for quantum computing (2004-01-13),

9. 5243649 - Apparatus and method for quantum mechanical encryption for the (1993-09-07),

Title: Innovations of James D Franson

Introduction

James D Franson is a notable inventor based in Ellicott City, MD (US). He has made significant contributions to the field of quantum information processing, holding a total of 9 patents. His work focuses on advanced optical technologies that have the potential to revolutionize various applications in quantum computing and communication.

Latest Patents

Franson's latest patents include the "Nanofiber-segment ring resonator," which features a fiber ring resonator with a long loop of standard single-mode fiber and a short nanofiber segment. This innovative design allows the evanescent mode of the nanofiber segment to interact with atoms near its surface, enhancing the cavity field. Another significant patent is the "Method and apparatus for single-photon source and quantum memory." This invention utilizes an optical switch and storage loop to create a single-photon source and quantum memory for photonic qubits. The system employs a pair of photons generated by a parametric down-conversion crystal, enabling the detection of one photon to activate the switch and reroute the other into the storage loop. This technology allows for the coherent storage and retrieval of single photons, which can be utilized in various quantum information processing applications.

Career Highlights

Throughout his career, Franson has worked with prestigious institutions such as Johns Hopkins University and the University System of Maryland. His research has significantly advanced the understanding and application of quantum technologies.

Collaborations

Franson has collaborated with notable colleagues, including Todd B Pittman and Bryan C Jacobs. Their joint efforts have contributed to the development of groundbreaking technologies in the field of quantum optics.

Conclusion

James D Franson's innovative work and patents in quantum information processing highlight his significant impact on the field. His contributions continue to pave the way for advancements in optical technologies and quantum computing.

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