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2. Microwave imaging - Wikipedia

   en.wikipedia.org/wiki/Microwave_imaging

   Microwave imaging is a science which has been evolved from older detecting/locating techniques (e.g., radar) in order to evaluate hidden or embedded objects in a structure (or media) using electromagnetic (EM) waves in microwave regime (i.e., ~300 MHz-300 GHz). [1]

3. Electron paramagnetic resonance - Wikipedia

   en.wikipedia.org/wiki/Electron_paramagnetic...

   Reflected microwave radiation (after absorption by the sample) is then passed through the circulator towards the detector, ensuring it does not go back to the microwave source. The reference signal and reflected signal are combined and passed to the detector diode which converts the microwave power into an electrical current.

4. Terahertz radiation - Wikipedia

   en.wikipedia.org/wiki/Terahertz_radiation

   Terahertz radiation can also detect differences in water content and density of a tissue. Such methods could allow effective detection of epithelial cancer with an imaging system that is safe, non-invasive, and painless. [44] In response to the demand for COVID-19 screening terahertz spectroscopy and imaging has been proposed as a rapid ...

5. Microwave radiometer - Wikipedia

   en.wikipedia.org/wiki/Microwave_radiometer

   The most common form of microwave radiometer was introduced by Robert Dicke in 1946 in the Radiation Laboratory of Massachusetts Institute of Technology to better determine the temperature of the microwave background radiation. This first radiometer worked at a wavelength 1.25 cm and was operated at the Massachusetts Institute of Technology.

6. Electromagnetic radiation - Wikipedia

   en.wikipedia.org/wiki/Electromagnetic_radiation

   Electromagnetic radiation phenomena with wavelengths ranging from one meter to one millimeter are called microwaves; with frequencies between 300 MHz (0.3 GHz) and 300 GHz. At radio and microwave frequencies, EMR interacts with matter largely as a bulk collection of charges which are spread out over large numbers of affected atoms.

7. Microwave ablation - Wikipedia

   en.wikipedia.org/wiki/Microwave_ablation

   [1-2] Microwave ablation has emerged as a newer ablation modality and an addition to the arsenal of minimally invasive cancer care. The purported benefits of microwave ablation over other heat-based modalities such as radiofrequency ablation and laser include a larger and faster volume of tissue heating with a given application.

8. Tomography - Wikipedia

   en.wikipedia.org/wiki/Tomography

   The method is used in radiology, archaeology, ... Microwave tomography [13] Microwave: ... Synchrotron radiation is created by accelerating free particles in high ...

9. Millimeter wave scanner - Wikipedia

   en.wikipedia.org/wiki/Millimeter_wave_scanner

   As such, millimeter wave radiation is non-ionizing and incapable of causing cancers by radiolytic DNA bond cleavage. Due to the shallow penetration depth of millimeter waves into tissue (typically less than 1 mm), [ 18 ] acute biological effects of irradiation are localized in epidermal and dermal layers and manifest primarily as thermal effects .