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  • Revolutionizing Terahertz Technology: The New Wave of Compact, Mobile, and Accessible Devices
  • Revolutionizing Terahertz Technology: The New Wave of Compact, Mobile, and Accessible Devices
  • Revolutionizing Terahertz Technology: The New Wave of Compact, Mobile, and Accessible Devices

The landscape of terahertz (THz) technology is on the cusp of a transformation, driven by innovative new products from TicWave Solutions that address the traditional limitations of size, efficiency, cost, and mobility. These advancements promise to make terahertz technology more practical and widely usable across various industries. Here are some of the groundbreaking new products from TicWave Solutions that are set to revolutionize the field.

Portable Terahertz Imaging Systems
TicWave Solutions offers compact terahertz imaging systems in portable formats, combining high-resolution imaging with ease of use. Battery-operated systems like the TicKIT-420G are versatile tools for non-destructive testing, allowing inspectors to examine the integrity of structures. The advent of these new products marks a significant leap forward for terahertz technology. By addressing the traditional limitations of cost, size, efficiency, and mobility, TicWave Solutions is making terahertz technology more accessible and practical than ever before. Whether in healthcare, industrial applications, or terahertz research, the impact of these advancements will be profound.

Terahertz Illumination Devices
TicWave Solutions’ terahertz illumination devices, like the TicSA-420G, provide innovative solutions for various applications by illuminating objects with terahertz waves to reveal hidden features and details. These devices are crucial in material characterization, allowing engineers and scientists to inspect the internal properties of materials without damaging them.

Handheld Terahertz Cameras
Imagine a portable device that fits in your hand and performs complex terahertz imaging tasks on the go. TicWave Solutions’ new handheld terahertz cameras, such as the TicCAM-1.1kpix, combine compact design with high efficiency and battery operation. These devices are ideal for non-destructive testing applications, where they can examine the integrity of structures. 

As these products continue to evolve and enter the market, we can expect to see a proliferation of new applications and an acceleration of technological progress across various fields. The future of terahertz technology is bright, and it is being shaped by the ingenuity and creativity of innovators at TicWave Solutions. For more information on their product offerings, visit TicWave Solutions Products.


The TicCAM-1.1kpix camera offers a feature for real-time video streaming, enabling the camera to capture and transmit live video over Wi-Fi to various devices such as smartphones and web browsers. It supports configurable frame rates, adjustable image quality settings including integration time, averaging, offset compensation (zero), and color-maps. The TicCAM-1.1kpix low power consumption makes it ideal for battery-operated or remotely powered terahertz projects. With its integrated web server and customization options it is an ideal feature for wireless/handheld demonstrations.


Terahertz Applications

Spatial Power Sensor Applications

Spatial power sensors in the THz range are crucial for mapping the distribution of THz radiation across an area. This application is essential in both research and industrial environments where precise power measurements can lead to better control and optimization of THz systems. Our compact terahertz components leverages the unique properties of THz waves, such as their ability to penetrate various materials and provide high-resolution imaging without harmful effects. 

Real-time THz Beam Monitoring

Real-time monitoring of THz beams allows for immediate adjustments and fine-tuning of THz systems, enhancing their efficiency and performance. This is particularly useful in experimental setups and industrial processes where THz radiation is used.

Polarization-selective THz-sensing

Polarization-selective sensing can distinguish between different polarizations of THz waves, providing additional information about materials and structures. This application is valuable in spectroscopy, material characterization, and communication technologies.

Active THz Imaging

Active THz imaging involves the use of THz sources to illuminate a scene and capture the reflected or transmitted THz waves. This technique is powerful for non-destructive testing, medical imaging, and security scanning, offering detailed insights that are not possible with other imaging modalities.

Security Screening Applications

THz technology is highly effective in security screening because THz waves can penetrate fabrics and non-metallic materials while being non-ionizing and safe for humans. This makes it ideal for detecting concealed objects in security environments like airports and public buildings.

Light-field Imaging

Light-field imaging with THz waves can capture the direction and intensity of light rays in a scene, enabling 3D reconstruction and depth perception. This application can revolutionize fields such as augmented reality, virtual reality, and advanced photography.

Antenna Pattern Measurements

Measuring the radiation patterns of THz antennas is crucial for the development of THz communication systems. Accurate pattern measurements ensure that antennas operate efficiently and effectively in their intended applications, such as high-speed wireless communications.

Computed Tomography

THz CT can create detailed 3D images of objects by scanning them with THz radiation from multiple angles. This application is particularly promising for non-destructive evaluation in industries like aerospace, pharmaceuticals, and art restoration, where traditional X-ray CT might be unsuitable.