Kyoto University (20240377485). PHASE DIFFERENCE MEASUREMENT DEVICE, MEASUREMENT METHOD, AND ELECTRICAL EQUIPMENT COMPRISING SAME simplified abstract
Contents
PHASE DIFFERENCE MEASUREMENT DEVICE, MEASUREMENT METHOD, AND ELECTRICAL EQUIPMENT COMPRISING SAME
Organization Name
Inventor(s)
Norikazu Mizuochi of Kyoto (JP)
Ernst David Herbschleb of Kyoto (JP)
Hiroki Morishita of Kyoto (JP)
Hiroshige Deguchi of Kyoto (JP)
PHASE DIFFERENCE MEASUREMENT DEVICE, MEASUREMENT METHOD, AND ELECTRICAL EQUIPMENT COMPRISING SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240377485 titled 'PHASE DIFFERENCE MEASUREMENT DEVICE, MEASUREMENT METHOD, AND ELECTRICAL EQUIPMENT COMPRISING SAME
The present invention measures the phase difference between multiple physical fields with high sensitivity. A phase difference measurement device includes an electromagnetic irradiation unit that irradiates a quantum sensor element with electromagnetic waves to manipulate the electron spin state of the sensor element, which changes through interaction with a physical field.
- The device also includes a phase difference measurement unit that acquires multiple electron spin states after interaction with the physical fields and measures the phase difference between them based on the acquired states.
- The innovation allows for precise measurement of phase differences in physical fields using quantum sensor elements manipulated by electromagnetic waves.
- By analyzing the electron spin states, the device can accurately determine the phase difference between different physical fields.
- This technology offers a novel approach to measuring phase differences with high sensitivity and accuracy.
- The device can be used in various applications where precise measurement of phase differences between physical fields is required.
Potential Applications: - Quantum computing - Magnetic resonance imaging (MRI) - Sensor technology - Communication systems - Navigation systems
Problems Solved: - High sensitivity measurement of phase differences between physical fields - Accurate determination of phase relationships in complex systems
Benefits: - Improved precision in measuring phase differences - Enhanced understanding of interactions between physical fields - Potential for advancements in quantum technology and communication systems
Commercial Applications: Title: Quantum Phase Difference Measurement Device This technology has potential commercial applications in industries such as quantum computing, medical imaging, telecommunications, and navigation systems. The high sensitivity and accuracy of phase difference measurements can lead to improved performance and efficiency in various applications.
Questions about Quantum Phase Difference Measurement Device:
1. How does the device manipulate the electron spin state of the quantum sensor element? The device manipulates the electron spin state using electromagnetic waves to interact with physical fields.
2. What are the potential applications of this technology in the field of quantum computing? This technology can be used in quantum computing for precise measurement of phase differences between quantum states, leading to improved computational efficiency and accuracy.
Original Abstract Submitted
the present invention measures, with high sensitivity, the phase difference between a plurality of physical fields. a phase difference measurement device () comprises: an electromagnetic irradiation unit () that repeatedly irradiates a quantum sensor element () with electromagnetic waves for manipulating an electron spin state of the quantum sensor element () which changes via interaction with a second physical field or a first physical field generated by an ac signal; and a phase difference measurement unit () that acquires a plurality of electron spin states after interaction with the second physical field or the first physical field, and measures the phase difference between a plurality of physical fields on the basis of the acquired plurality of electron spin states.
