Applications of Quantum Physics in the Storage, Transmission, and Processing of Information at Room Temperature

Background

Quantum communication technologies have the potential to completely change how information is stored, transmitted, and processed. This is due to the fact that it can enable 100% fully secure communication lines between communicators. This is possible because, contrary to cryptographic communication which uses mathematical functions that can be cracked, quantum communication uses quantum physics to communicate information. It is impossible to eavesdrop on a quantum communication line; measuring the system itself disturbs it which alerts the communicators that an intruder has tried to intercept information. If this technology is implemented, the communications industry can be completely revolutionized. However, despite its extreme advantages, quantum communication techniques have the disadvantages of transmission loss in fibers and storing (or buffering) of the quantum information.

Technology

This procedure of quantum communication involves separately storing 4 photons and making the first and second photons, and the third and fourth photons entangled photon pairs. Then, a synchronized retrieval is initiated such that the first photon is propagated to the first node, the second and third photons are propagated to the second node, and the fourth photon is propagated to the third node. The second node is then measured, and the entanglement swapping of information encoded within the second and third photons at the second node, and the first and fourth photons within the first and third nodes, respectively, is performed. This process can be modified depending on whether path differences want to be compensated for by converting them in storage time differences. This can be done in a number of ways, including making the second node an intermediate node, polarization within the nodes, making the first or third node an end node, among others. Thus, the transmission length, or fiber length, of the photons doesn't matter as long as it goes through a transmission length that has a Hong-Ou-Mandel visibility depth above the threshold tested depending on the method used. This can be checked by sending simple signals showing a negative or positive indication of whether it was below the threshold or above. The thresholds are usually around 40-50%.

Advantages

- 100% secure communication lines. - Minimizes the amount of information that can be lost in fibers or storage of quantum information. - Can be done at room temperature

Application

Quantum communication techniques can be used to successfully transfer, store, or transmit information within a secure environment.

Patent Status

Patent application submitted

Stage Of Development

PCT/US19/24601

Licensing Potential

Development partner,Licensing,Commercial partner

Licensing Status

Available for Partnership.

Additional Info

https://stonybrook.technologypublisher.com/files/sites/lktyxmflq2aaidyfdjka_massimo-botturi-zfyuslk_50y-unsplash.jpg Source: Massimo Botturi, https://unsplash.com/photos/zFYUsLk_50Y, Unsplash License.

Category(s):

Campus > Stony Brook University

Technology Classifications > Information Technology

Technology Classifications > Optics and Photonics

Case ID: R050-8987

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For Information, Contact:

Donna Tumminello

Assistant Director

State University of New York at Stony Brook

6316324163

donna.tumminello@stonybrook.edu

Inventors:

Eden Figueroa

Mehdi Namazi

Mael Flament