MAM
Millimeter and Terahertz Technologies Research Laboratory
Material Characterization Laboratory with Electromagnetic Methods
About Us
Laboratory
- 1-18GHz ARCH material Characterization system,
- 75-110GHz Quazioptic Material Characterization system
is available. Characterization and calculations of the material by electromagnetic methods are carried out within the scope of the project.
Precision Mechanical Machining Center
The laboratory is equipped with CNC (Computer Numerical Control) technology. It has become critical for micro-scale applications that require high precision. Especially in the production of systems operating in microwave and millimeter wave (1-330GHz) frequency ranges, the geometric precision and surface quality of the components play a decisive role in terms of electromagnetic performance. For this reason, CNC-based precision machining technologies have become the basic production method in these areas.
Components such as millimeter and THz waveguides, lenses, antenna structures, resonators, etc. must be manufactured with precision
There is also a lathe machine, hydraulic saw, desktop column drill, robot-drill device, stone engine machine and microscope.
Center Images
Precision PCB Production Center
In our laboratory, the production of high frequency systems is realized with laser PCB scraper, PCB prototyping with LPKF ProtoMat H100, Cascade Probe measurement station, gold wire bonding equipment. In addition, the production, testing and measurements of THz receivers are carried out with the support of sensitive infrastructure.
Center Images
THz Anechoic Chamber Far Field Measurement Platform
In our laboratory in the frequency range of 1-325GHz
- Scale Model THz Radar Cross Section Measurements
- Antenna Radiation Pattern Measurements
- Reflection / Transmission Loss / Absorption Tests of Materials
- Material characterization tests and calculations (8-18GHz) and measuring instruments are available with the ARCH system.
02.25 Sub-THz and THz Imaging Laboratory
Working on active and passive radar prototypes at microwave and THz frequencies
Our laboratory has prototype studies for the development of THz Passive Imaging devices. There are lens development, high frequency receiver design and production, LNA design and production, antenna array design and production activities. Regarding active radar work;
- Portable
- Remote Controllable
- Working on dry surfaces and environments without metal
- Working Distance: Behind the Wall: 15-20m working microwave radar is available.
THz TDS (Terahertz Time-Domain Spectroscopy) is a technique for analyzing the optical and electrical properties of materials by time-dependent signal measurements in the terahertz (0.1-3 THz) frequency range. The system usually generates short THz pulses and measures the passage of these pulses through the material or their reflection from the surface to determine the spectral fingerprint of the material from parameters such as refractive index and absorption.
Platform Visuals
Materials and Antenna Design and Characterization Laboratory at Millimeter-Terahertz Frequency
About Us
In our laboratory, Material characterization, design, simulation and Antenna design, simulation, characterization measurements are carried out with Electromagnetic methods.
- Measurement and calculation of permittivity & permeability coefficients of liquid and semi-solid materials in the frequency range of 1-50GHz with prop-kit system,
- Permittivity & permeability coefficient measurements and calculations of materials in the frequency range of 1.7-320GHz with waveguide systems,
- With the coaxial probe system, permittivity & permeability coefficient measurements and calculations can be made in the frequency range of 1-18GHz.
- Within the scope of the project, antenna design, production and characterization can be carried out in the 1-325Ghz range.
02.41 RAM Lab.
The Radar Absorber Materials Development Laboratory focuses on the design, synthesis and performance testing of absorber materials that effectively absorb electromagnetic waves in different frequency bands. In particular, the laboratory works on composite, dielectric and dye-based structures targeting low radar visibility and absorption properties at frequencies between 1-18GHz. Reflectance measurements, S-parameter analyses and RKA tests for the characterization of the developed materials can be performed in the relevant laboratories.
It also has environmental testing capability as infrastructure.