3D printed material3D printing process3D substrate integrated waveguide componentsE-plane bendsSIW cavity resonatoradditive manufacturing techniqueThe implementation of fully three-dimensional (3D) substrate integrated waveguide (SIW) components by using an additive manufacturing technique is demonstrated for the...
This paper investigates the design and fabrication of 3D printed waveguides and their application for the design of microwave passive components. This includes a simple waveguide structure, a bandpass flter, waveguide power splitter, a leaky wave antenna and a slot antenna array. A Lego-like approa...
3D-printed components for quantum devicesR. Saint, W. Evans, Y. Zhou, T. Barrett, T. M. Fromhold, E. Saleh, I. Maskery, C. Tuck, R. Wildman, F. Oručević & P. Krüger Scientific Reports volume 8, Article number: 8368 (2018) Cite this article ...
001. How to Simulate Cut Off Frequency of TE TM Mode in Rectangular Waveguide wi 07:42 002. How to Perform Advanced Operation of 3D Models in HFSS 07:21 003. How to Create Bending Flexible Printed Circuit Board in HFSS 06:25 004. How to Create Fundamental 3D Models in HFSS 05:18 005...
001. How to Simulate Cut Off Frequency of TE TM Mode in Rectangular Waveguide wi 07:42 002. How to Perform Advanced Operation of 3D Models in HFSS 07:21 003. How to Create Bending Flexible Printed Circuit Board in HFSS 06:25 004. How to Create Fundamental 3D Models in HFSS 05:18 005...
Fundamental mode and high order mode waveguide twists: (a) V-band fundamental mode waveguide twist, (b) frequency response of the V-band fundamental mode waveguide twist, (c) V-band high order mode waveguide twist, and (d) frequency response of the V-band high order mode waveguide twist....
Waveguide Fabrication They chose the commercially available nylon PA-12 as substrate and fabricated the waveguides using a selective laser sintering (SLS) printing method. They then applied the electrically conductive MXene from a water-based MXene (co...
enables the seamless integration of SIC technologies with 3D printed components. Furthermore, its resilience against manufacturing errors and compatibility with a range of readily available, cost-effective 3D printers ensures repeatability. This method can also be applied to waveguide sizes across various...
Precision and complexity are inevitable in the field of microwave technology. Antennas, filters, diplexers, and general miniaturisation of waveguide components help to decisively advance microwave applications in millimetre-wave and even sub-terahertz range. By means of Micro Laser Sintering (MLS), the...
We demonstrate broadband, low loss, and close-to-zero dispersion guidance of terahertz (THz) radiation in a dielectric tube with an anti-reflection structure (AR-tube waveguide) in the frequency range from 0.2 to 1.0 THz. The anti-reflection structure (ARS) consists of close-packed cones in ...