This study investigates the electrical responses of optically driven quantum material, revealing nonlinear current-voltage characteristics indicative of photo-induced superconductivity, with potential applications in high-speed devices.
Nanomaterials derive unique properties from their nanostructure. A perspective explores advanced nanofabrication techniques to modify properties in condensed matter systems, discussing applications and future prospects.
Achieve straight, vertical sidewalls in thick negative-tone resist using focused laser beam-based direct write lithography, overcoming non-homogeneous illumination and non-sharp edges. (Possible application: MEMS)
Compare inverse-designed and conventional lenses in MWIR optics. The inverse-designed lens offers better depth-of-focus and off-axis performance but with larger spot size and reduced efficiency.
Grayscale lithography can create structured surfaces in photoresist for micro-optics applications. Experiments show promise in fabricating structures over 100 μm using a new experimental resist.
Scalable fabrication of hemispherical solid immersion lenses in silicon carbide through grayscale hard-mask lithography
Utilizing grayscale lithography and hard-mask methods, silicon carbide hosts micrometer-scale features and hemispherical solid immersion lenses, boosting optical collection for quantum emitters. Scalable, reproducible, CMOS-compatible.
Normally-Off p-GaN Gate High-Electron-Mobility Transistors with the Air-Bridge Source-Connection Fabricated Using the Direct Laser Writing Grayscale Photolithography Technology
Fabrication of a p-GaN gate HEMT with an air-bridge source connection using direct grayscale lithography, achieving good performance with high breakdown voltage and low on-resistance.
Ultrasensitive UV-C detection based on MOCVD-grown highly crystalline ultrawide bandgap orthorhombic κ-Ga2O3
Orthorhombic κ-Ga2O3 is a superior ultrawide bandgap material for extreme environments. We demonstrate ultrasensitive UV-C detection using Si-doped κ-Ga2O3 photodetectors.
Optoelectronic materials converting light to bulk current. Unveiling anisotropic photothermoelectric effect driving complex photocurrent circulations via unequal crystal-axis thermopowers, visualized using microscopy and magnetic imaging.
The EIPBN conference, which stands for the International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication, and is
In what is already a tradition ahead of the MNE International Conference on Micro and Nano Engineering, Heidelberg Instruments and
Press Release “LUMINEQ Boosts Transparent Display Innovation with Cutting-Edge MLA 300 Laser Exposure Tool from Heidelberg Instruments” by LUMINEQ dtd. Sept. 11, 2023
September 1, 2023, Espoo, Finland – Lumineq Oy, a global leader in transparent display technology, has announced a strategic investment
We are thrilled to announce the results of our recent image competition, which showcased the capabilities of our tools in
Get a sneak peek into current material related research and further prospects. Our webinars on our NanoFrazor® Technology cover a
Redefining Wafer-Level Packaging Production with Heidelberg Instruments Flexible Direct Writing Technology
Heidelberg, Germany – Heidelberg Instruments, a global player in direct write technology and solution provider for the advanced packaging market,
Successful 7th Edition of the Thermal Probe Workshop hosted by Heidelberg Instruments Nano After a break of more than three