Location History:
- Flagstaf, AZ (US) (2023)
- Flagstaff, AZ (US) (2024)
Company Filing History:
Years Active: 2023-2024
Title: Ines Montano: Innovator in Quantum Key Distribution
Introduction
Ines Montano is a prominent inventor based in Flagstaff, AZ (US), known for her groundbreaking work in the field of quantum key distribution. With a total of two patents to her name, she has made significant contributions to the advancement of secure communication technologies.
Latest Patents
Montano's latest patents focus on secure multi-state quantum key distribution utilizing wavelength division multiplexing. These innovative systems and methods enhance the performance of quantum key distribution by encoding information using both the wavelength and polarization of photons across multiple wavelengths. Her multi-wavelength polarization state encoding schemes enable the representation of ternary-coded digits, quaternary-coded digits, and higher-radix digits through single photons. This technology allows information expressed in a first radix to be encoded in a higher radix, combined with a string of key values, resulting in a datastream that encompasses all allowed digit values of that radix. Importantly, this method facilitates the detection of eavesdropping without necessitating additional information exchange between the sender and receiver after the transmission.
Career Highlights
Ines Montano is affiliated with Northern Arizona University, where she continues to push the boundaries of research in quantum technologies. Her work not only contributes to academic knowledge but also has practical implications for secure communications in various industries.
Collaborations
Montano collaborates with notable colleagues, including Bertrand Francis Cambou and Ryan Orson Behunin, further enriching her research endeavors and expanding the impact of her innovations.
Conclusion
Ines Montano stands out as a key figure in the realm of quantum key distribution, with her patents paving the way for enhanced security in communication technologies. Her contributions are vital in the ongoing evolution of secure information exchange.