Electromagnetic Acoustic Tests

Electromagnetic and Electrical Tests

Electromagnetic Acoustic Tests

Electromagnetic acoustics is an interdisciplinary field of research that combines electromagnetic and acoustic wave. Studies in this area focus on electromagnetic acoustic sensing, imaging and therapy techniques that go beyond conventional electromagnetic acoustic generation with ultra-short electromagnetic illumination and bring this technique closer to multifunctional performance. There will be more focus on electromagnetic acoustic imaging and therapy systems in the coming years.

Electromagnetic Acoustic Tests

Electromagnetic acoustics is an interdisciplinary field of research that combines electromagnetic and acoustic wave. Studies in this area focus on electromagnetic acoustic sensing, imaging and therapy techniques that go beyond conventional electromagnetic acoustic generation with ultra-short electromagnetic illumination and bring this technique closer to multifunctional performance. There will be more focus on electromagnetic acoustic imaging and therapy systems in the coming years.

Applications of electromagnetic acoustic methods include structural imaging, blood flow measurement, thermometry, dosimetry for radiation therapy, hemoglobin oxygen saturation sensing, fingerprint imaging and sensing, glucose sensing, pH value sensing, and similar applications. Electromagnetic acoustics have great potential in both preclinical research and medical applications.

Today, electromagnetic wave-based imaging and detection methods are widely used in clinical practice. These techniques play a vital role in physiological perception, clinical diagnosis, image-guided therapy, and patient management. Although great advances have been made, there are still some fundamental limitations to these electromagnetic techniques.

Among them, X-ray computed tomography is accepted as the clinical gold standard technique for medical diagnosis. Although X-rays provide deep penetration depth and excellent imaging resolution, the associated ionizing radiation damage limits its application.

Optical imaging, including diffuse optical tomography, near-infrared spectroscopy, and fluorescent imaging, provides high spatial resolution and high specificity for surface exploration. However, accurate optical focusing relies on the ballistic propagation of photons within biological tissue and limits the imaging depth to a few hundred micrometres.

All these limitations cannot meet the demanding requirements of modern biomedical applications, such as high sensitivity, deep penetration, high spatial resolution, real-time, low cost and similar requirements.

Our organization also provides electromagnetic acoustic testing services with its trained and expert staff and advanced technological equipment, among the numerous test, measurement, analysis and evaluation studies it provides for businesses in various sectors.

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