<del id="euksu"></del> The atomic terahertz imaging system utilizes Rydberg atoms to convert terahertz
images into visible light images, with a noise level that is 4 - 5 orders of magnitude lower
than that of electronic terahertz cameras. It features high sensitivity and can achieve high-
resolution and long - distance terahertz imaging. Moreover, it has a fast imaging speed and
can realize high - speed imaging with a frame rate of 10MHz. In addition, it can integrate
the terahertz spectrum analysis function, and convert the terahertz spectrum into a visible
light spectrum via Rydberg atoms.
· Nondestructive testing of organic materials
· Biomedical imaging
· Plasma detection
· Target recognition in complex environments
Parameter | Specification |
Frequency Range | 0.1 ~30THz |
Sensitivity | 0.1fWμm-2 (imaging time: 1s) |
Imaging Rate | 1kHz (theoretical maximum: 10MHz) |
Imaging Pixels | 500×500 |
Spatial Resolution | 0.6mm@550GHz |
Product Introduction:
The atomic terahertz imaging system utilizes
Rydberg atoms to convert terahertz images into
visible light images, with a noise level that is 4 -
5 orders of magnitude lower than that of electr
-onic terahertz cameras. It features high sensiti
-vity and can achieve high- resolution and long
- distance terahertz imaging. Moreover, it has a
fast imaging speed and can realize high - speed
imaging with a frame rate of 10MHz. In addition,
it can integrate the terahertz spectrum analysis
function, and convert the terahertz spectrum
into a visible light spectrum via Rydberg atoms.
Application Scenarios:
Nondestructive testing of organic materials.
Biomedical imaging.
Plasma detection.
Target recognition in complex environments.
Parameter | Specification |
Frequency Range | 0.1 ~30THz |
Sensitivity | 0.1fWμm-2 (imaging time: 1s) |
Imaging Rate | 1kHz (theoretical maximum: 10MHz) |
Imaging Pixels | 500×500 |
Spatial Resolution | 0.6mm@550GHz |
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