QUANTUM SOURCE LABS LTD. (20240338585). PHOTONIC QUANTUM COMPUTATION WITH DIRTY PHOTONS simplified abstract
Contents
PHOTONIC QUANTUM COMPUTATION WITH DIRTY PHOTONS
Organization Name
Inventor(s)
Serge Rosenblum of Rehovot (IL)
PHOTONIC QUANTUM COMPUTATION WITH DIRTY PHOTONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240338585 titled 'PHOTONIC QUANTUM COMPUTATION WITH DIRTY PHOTONS
Simplified Explanation: The patent application describes systems and methods for generating photonic graph states for quantum computing by entangling photonic qubits using quantum emitters and cavities.
Key Features and Innovation:
- Coupling a quantum emitter to a cavity to generate dirty photons.
- Forming photonic qubits using the dirty photons.
- Entangling the photonic qubits to create pairs of entangled photonic qubits.
- Utilizing the entangled photonic qubits for quantum computation.
Potential Applications: This technology could be applied in quantum computing, quantum communication, and quantum cryptography.
Problems Solved: This technology addresses the need for efficient generation of entangled photonic qubits for quantum computing applications.
Benefits:
- Enables the creation of entangled photonic qubits.
- Facilitates quantum computation tasks.
- Enhances the efficiency of quantum computing systems.
Commercial Applications: Potential commercial applications include quantum computing services, quantum communication devices, and quantum cryptography solutions.
Prior Art: Readers can explore prior research on quantum entanglement, photonic qubits, and quantum computing systems for related information.
Frequently Updated Research: Stay updated on advancements in quantum computing, photonic technologies, and quantum entanglement research for insights into the latest developments in the field.
Questions about Photonic Graph States for Quantum Computing: 1. What are the practical implications of entangled photonic qubits in quantum computing? 2. How does the entanglement of photonic qubits enhance the performance of quantum computation systems?
Original Abstract Submitted
systems and methods for generating photonic graph states for quantum computing include coupling a quantum emitter to a cavity, generating a first dirty photon having a first temporal profile, using the first dirty photon to form a first photonic qubit, generating a second dirty photon having a second temporal profile, using the second dirty photon to form a second photonic qubit, using the quantum emitter coupled to the cavity to entangle the first photonic qubit with the second photonic qubit to form a pair of entangled photonic qubits, and using the pair of entangled photonic qubits for quantum computation.
