Quantum Sensors

Key Quantum Sensor Types:

1. Quantum Magnetometers

2. Quantum Gravimeters

3. Quantum Accelerometers

4. Quantum Clocks

5. Quantum Imaging Sensors

6. PAR Quantum Sensors

Quantum Magnetometers:

• Utilize the quantum spin of atoms or the quantum properties of superconductors to measure magnetic fields with high accuracy

• Applications include geophysical exploration, navigation, and medical imaging

Quantum Gravimeters:

• Measure minute changes in the Earth's gravitational field

• Applications include mineral exploration, underground mapping, and inertial navigation

• Rely on quantum effects of matter waves or trapped atoms

Quantum Accelerometers:

• Exploit the quantum mechanical properties of atoms or superconducting circuits to measure acceleration with high precision

• Applications include advanced navigation systems, inertial guidance, and vibration monitoring

Quantum Clocks:

• Utilize the quantum transitions of atoms or ions to maintain time with unprecedented stability and accuracy

• Applications include telecommunications, GPS, and scientific research

Quantum Imaging Sensors:

• Leverage the quantum nature of light to capture high-resolution images, even in low-light conditions

• Applications include night vision, biomedical imaging, and security

PAR Quantum Sensors

• Full-spectrum quantum PAR sensors and PAR meters are the industry standard for accurately measuring photosynthetically active radiation (PAR or PPFD) from all light sources used to grow plants and corals.