International business machines corporation (20240119332). NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER simplified abstract
Contents
- 1 NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Unanswered Questions
- 1.11 Original Abstract Submitted
NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER
Organization Name
international business machines corporation
Inventor(s)
Baleegh Abdo of Fishkill NY (US)
NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240119332 titled 'NONDEGENERATE THROUGH QUANTUM-LIMITED AMPLIFIER
Simplified Explanation
The device described in the patent application is a nondegenerate through quantum-limited amplifier that amplifies quantum signals within specific frequency bands. Here are some bullet points to explain the innovation:
- The device has three ports: one for receiving quantum signals within a first frequency band, one for receiving quantum signals within a second frequency band (non-overlapping with the first), and one for outputting the amplified signals.
- The amplifier amplifies the signals received at the first port and converts the frequencies of the signals received at the second port to frequencies within the first frequency band.
- The device outputs the amplified signals from both ports through the third port.
Potential Applications
The technology described in this patent application could have potential applications in:
- Quantum communication systems
- Quantum computing
- Quantum cryptography
Problems Solved
This technology helps in:
- Amplifying quantum signals without introducing excess noise
- Converting frequencies of quantum signals to match specific frequency bands
- Enhancing the efficiency and reliability of quantum signal processing
Benefits
The benefits of this technology include:
- Improved signal amplification in quantum systems
- Enhanced signal processing capabilities
- Increased security in quantum communication
Potential Commercial Applications
With its applications in quantum technology, this innovation could be utilized in various commercial sectors such as:
- Telecommunications
- Information technology
- Defense and security industries
Possible Prior Art
One possible prior art for this technology could be the use of degenerate amplifiers in quantum systems, which may not provide the same level of efficiency and frequency conversion as the nondegenerate through quantum-limited amplifier described in this patent application.
Unanswered Questions
How does the device handle quantum signals with different polarization states?
The patent application does not specify how the device deals with quantum signals that have different polarization states. This could be crucial for certain applications where polarization plays a significant role in signal processing.
What is the maximum bandwidth that the amplifier can handle?
The patent application does not mention the maximum bandwidth capacity of the amplifier. Understanding this limitation could be important for determining the scalability of the device for different quantum signal processing tasks.
Original Abstract Submitted
a device comprises a nondegenerate through quantum-limited amplifier comprising a first port, a second port, and a third port. the first port is configured to receive first quantum signals which comprise frequencies within a first frequency band. the second port is configured to receive second quantum signals which comprise frequencies within a second frequency band, which is non-overlapping with the first frequency band. the nondegenerate through quantum-limited amplifier is configured to amplify the first quantum signals, amplify and convert the frequencies of the second quantum signals to frequencies within the first frequency band, and output the amplified first quantum signals and the amplified frequency-converted second quantum signals from the third port.