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Major Announcement | The General Manager of Suzhou New Dimension has been invited to attend the Third Photomask and Photoresist Technology Forum and deliver a keynote speech.
24
2026
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04
A Century-Long “Artificial Divine Light”: How Has Laser Technology Changed the World, and What Enables Its Breakthroughs?
Every day, before heading to work, the red glow of the QR‑code payment when buying breakfast, the smooth, razor‑sharp edge of a smartphone screen, and even the pinpoint beam used to precisely polish the lens during refractive surgery—all conceal the same beam of light: the laser. This “artificial divine light,” now woven into the fabric of our daily lives, actually took more than a century to go from theoretical inception to everyday reality. Today, we’ll trace this century‑long story step by step, and delve into the “behind‑the‑scenes enablers” that empower lasers—DOE optical elements—as well as the high‑precision micro‑ and nano‑fabrication techniques—namely nanoimprint lithography—that have made their mass production and widespread adoption possible.
22
Nanoimprinting + Metasurfaces: Giving Silicon Photonics “Magic Wings”
Smartphone lenses are becoming ever thinner, the “eyes” of autonomous driving—LiDAR—are no longer spinning, and AI computing is growing both faster and more energy‑efficient. These seemingly unrelated advances all point to a “miniature revolution” in photonics. One key player is metasurfaces, which act as nano‑scale “light‑shaping wizards,” breaking the size and functional constraints of conventional silicon‑based photonic chips. Another star is nanoimprint lithography, a kind of “magic mass‑production machine” that brings this cutting‑edge technology from the lab into everyday life.
The next-generation ultimate display technology: Micro-LED plus nanoimprint lithography—bright prospects ahead.
Micro-LED + nanoimprint lithography: ushering in a new era of visual display.
13
Linear encoders: the “ultra-precise eyes” of precision equipment, underpinned by nanoscale manufacturing technology.
When we think of CNC machine tools, lithography machines, CT scanners, and coordinate measuring machines, they often seem like distant, cutting-edge technologies. Yet few realize that achieving their unparalleled precision relies on an unassuming yet critical component: the linear encoder. Acting as the equipment’s built-in “super‑ruler” and “keen eye,” it can detect minute displacements down to the micrometer and even nanometer scale, while continuously monitoring every movement of the machine. From chip manufacturing and component quality inspection to medical radiotherapy and high‑precision metrology, its indispensable support is found everywhere.
30
03
The “Invisible Guardian” of Biometrics: How Crucial Is WGP (Metal Wire Grid Polarizer)?
Every day, when we unlock our phones, swipe our access cards, or handle government services, we’re interacting with biometric technology: fingerprint unlocking delivers a one-second response, facial recognition clears security checkpoints, and iris recognition provides precise anti-counterfeiting. Behind these seamless, secure experiences lies an unassuming yet indispensable “behind-the-scenes hero”: the WGP, or metal‑wire‑grid polarizer.