|
Topological Quantum Analogue Computing using Classical Nonlinear Granular System
This technology is a quantum computing platform that uses the topological features of a classical nonlinear granular computing system to simulate quantum-like behavior using "elastic bits." These elastic bits emulate qubits by maintaining stable state integrity at ambient temperatures without the decoherence issues of quantum systems. This...
Published: 4/21/2025
|
Inventor(s): Pierre Deymier
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Quantum, Technology Classifications > Software & Information Technology
|
|
A Method for Performing Permutation Operations using Phi-Bits (Acoustic Analogues of Qubits)
This invention consists of methods for obtaining all possible permutations using logical phi-bits, which are classical analogues of quantum bit (qubits) and are supported by driven acoustic metamaterials. Permutation operations are essential in quantum computing as they enable the manipulation of quantum states through fundamental gates. The method...
Published: 11/25/2024
|
Inventor(s): Pierre Deymier, Keith Runge, Akinsanmi Ige, David Cavalluzzi
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Communications & Networking, Technology Classifications > Engineering & Physical Sciences > Quantum, Technology Classifications > Software & Information Technology > Security
|
|
A Method for Encoding, Encrypting and Decrypting Information using Phi-Bits (Acoustic Analogues of Qubits)
This invention addresses the need for robust data security in the face of emerging quantum computing risks and presents logical phi-bits as a promising solution for encryption in the digital age. This cryptography method uses logical phi-bits, which are classical analogues of quantum bits (qubits) and are supported by driven acoustic metamaterials....
Published: 11/25/2024
|
Inventor(s): Pierre Deymier, Keith Runge, Akinsanmi Ige, David Cavalluzzi, Ivan Djordjevic
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Quantum, Technology Classifications > Software & Information Technology > Security, Technology Classifications > Engineering & Physical Sciences > Communications & Networking
|
|
Damage Localization in Plate Structures using the Geometric Phase of Acoustic Waves
This technology is a novel non-destructive testing and evaluation (NDT&E) method designed to locate defects and damages in plate structures. While traditional defect localization techniques analyze velocity differences or amplitude ratio, this technology’s topological acoustic approach analyzes changes in the geometric phase of acoustic waves...
Published: 12/16/2024
|
Inventor(s): Tribikram Kundu, Pierre Deymier, Keith Runge, Guangdong Zhang
Keywords(s):
Category(s): Technology Classifications > Sensors & Controls
|
|
Geometric Phase Seismic Sensing using Green's Functions Obtained from Cross Correlation
This invention is a novel method of surface and subsurface detection in geological environments by using the geometric phase of seismic waves as a function of acoustic frequency. This method has application for accurate detection of oil and gas deposits, as well as enabling industrial application in sensing and discovery that are unavailable from current...
Published: 8/21/2024
|
Inventor(s): Pierre Deymier, Keith Runge, Bingxu Luo, Susan Beck
Keywords(s):
Category(s): Technology Classifications > Imaging & Optics > Sensors and Detection, Technology Classifications > Engineering & Physical Sciences
|
|
Demonstration of a Two-Bit Controlled-NOT Quantum-Like Gate using Classical Acoustic Qubit-Analogues
This technology is an implementation of a logic gate using acoustic waves. It is a two-bit controlled NOT gate that allows acoustic waves to be used to perform logic operations like those that can be performed in traditional quantum computers.
Background:
Controlled NOT (CNOT) gates are quantum logic gates that are fundamental components of quantum...
Published: 10/1/2024
|
Inventor(s): Pierre Deymier, Keith Runge
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Electronics > Computer Hardware, Technology Classifications > Engineering & Physical Sciences > Quantum
|
|
Experimental Method for Manipulation of the State of Multi-Phi-Bit Systems
This invention is a method to experimentally navigate the Hilbert space of two logical phi-bits. A “phi-bit,” is a two-state degree of freedom of an acoustic wave (an acoustic spin), which can be in a coherent superposition of states with complex amplitude coefficients. Phi-bits are therefore analogues of qubits. The inventors have developed...
Published: 2/19/2025
|
Inventor(s): Pierre Deymier, Keith Runge, Md Arif Hasan
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Quantum
|
|
A Method for the Practical Implementation of Scalable Quantum-Like Gates using Logical Phi-Bits
This technology is a breakthrough in the development of acoustic-based (phi-bit based) quantum-analogue computing platform by enabling the design of scalable unitary operations (gates) that do not need to be decomposed into circuits of elementary gates. This should lead to quantum-like information processing approaches that are more effective than those...
Published: 8/1/2024
|
Inventor(s): Pierre Deymier, Keith Runge
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Quantum, Technology Classifications > Engineering & Physical Sciences > Electronics > Computer Hardware
|
|
High-Sensitivity Non-Destructive Evaluation/Testing Method for the Detection of Defects in Structures using the Geometric Phase of Acoustic Waves
This novel, highly sensitive non-destructive testing method analyzes the spacial behavior of acoustic waves to detect cracks and defects in objects and structures, with applications across many industries. This method’s sensitivity allows it to detect even slight flaws and defects, and to identify cracks through topographical complexities like...
Published: 2/27/2025
|
Inventor(s): Tribikram Kundu, Pierre Deymier, Keith Runge, Guangdong Zhang
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Industrial & Manufacturing, Technology Classifications > Engineering & Physical Sciences
|
|
Low-Loss Topological Acoustic Wave Device for Telecommunication and Sensing
This innovation provides potential solutions to telecommunication and sensing devices that utilize acoustic waves as a medium. Compared to conventional elastic waves, topologically protected waves provide a significant benefit for reducing the return loss in devices. Superlattices supporting topologically protected acoustic waves provide attractive...
Published: 8/1/2024
|
Inventor(s): Pierre Deymier, Keith Runge
Keywords(s):
Category(s): Technology Classifications > Engineering & Physical Sciences > Electronics > Mixed Signal Processing, Technology Classifications > Engineering & Physical Sciences > Transportation & Automotive > Telematics
|
