Total light control, not a photon wasted
We develop holographic platforms for precise, efficient, and ultra-rapid parallel control of light, enabling new capabilities across quantum, manufacturing, imaging, and display.
Technology
Core enabling technology everywhere light touches
One holographic platform, shaped into products spanning quantum computing, manufacturing, imaging, display, microscopy, and beyond.
HoloVAM
Volumetric Additive Manufacturing
Ultrafast, lossless 3D volumetric fabrication. Build entire structures simultaneously rather than layer-by-layer in the world's first lensless volumetric 3D fabrication system.
QuanTile
Neutral-atom Quantum Computing
Compact, all-in-one light engine for neutral-atom quantum systems. Trap, address, and rearrange scalable atom arrays in real-time without the usual rack of optics.
Phazor
Holographic Imaging
Gabor holography reinvented. Twin-image-free coherent imaging that unlocks new possibilities in microscopy, sensing, and metrology.
HoloTile Core
Platform Products
The core HoloTile platform adapted for display, lighting, HUDs, microscopy, and more. Same engine, tuned for the job at hand.
News
What's happening
HoloTile Photonics pitches at Spin-outs Denmark Conference 2026
HoloTile Photonics pitched at the Spin-outs Denmark Conference 2026, presenting our technology and market opportunity to investors and industry partners.
Volumetric fabrication without lenses: a world-first demonstration
SPIE Photonics West proceedings paper presenting a lensless volumetric fabrication demonstration for HoloVAM.
Gabor Holography Reinvented
Preprint describing an optical solution to the long-standing twin-image problem in on-axis Gabor holography.
HoloVAM: ultrafast lossless and lensless 3D fabrication via compact phase-only digital holography
Invited SPIE Photonics West paper and presentation on compact phase-only digital holography for HoloVAM.
Kroppens reservedele kan 3D-printes på operationsstuen med holografisk teknologi
Ingeniøren covers HoloVAM's surgical and biofabrication potential in an end-of-year science feature.
Lensless and Lossless HoloVAM
ArXiv preprint positioning HoloVAM as a compact volumetric additive manufacturing architecture without lenses or wasted light.
QuanTile featured at Digital Tech Summit
QuanTile appears in the company's 2025 summit positioning as the optical subsystem for neutral-atom quantum processors.
QuanTile named Bright Idea Award finalist
Otto Mønsteds Foundation lists QuanTile among its early-stage finalists for solving a key scaling problem in quantum computing.
Researcher uses light to print everything from organs to prosthetics
SDU profiles Andreas Gejl Madsen's effort to turn holographic volumetric printing research into a company and product platform.
Ny 3D-print gør hologrammer ægte: Kan printe væv og organer
Ingeniøren highlights HoloVAM's ability to print tissues and organ-like structures using holographic light fields.
Danske og schweiziske forskere opnår gennembrud inden for lynhurtig holografisk 3D-fabrikation
SDU covers the Nature Communications breakthrough on high-speed holographic 3D biofabrication.
Holographic tomographic volumetric additive manufacturing
Nature Communications paper presenting holographic tomographic volumetric additive manufacturing, the scientific foundation behind HoloVAM.
Axial HoloTile: Extended depth-of-focus of dynamic holographic light projections
Journal paper extending HoloTile into three-dimensional dynamic patterning with long depth-of-focus beamlets.
HoloTile RGB: Ultra-fast single-shot, discretized, full-color computer-generated phase-only holography
ArXiv manuscript extending HoloTile to full-color holography with rapid single-shot phase-only RGB reconstruction.
Gabor-type holography solved analytically for complex-valued phase disks
Analytical paper on Gabor-type holography that supports the product direction later framed as Phazor.
HoloTile light engine: new digital holographic modalities and applications
Invited review paper covering HoloTile's speckle-suppressed light engine, new modalities, and application range.
New analytical diffraction expressions for the Fresnel-Fraunhofer transition regime
Optik paper developing analytical diffraction expressions relevant to the broader HoloTile holography stack.
HoloTile: Rapid and speckle-suppressed digital holography by matched sub-hologram tiling and point spread function shaping
Core HoloTile paper introducing the matched sub-hologram tiling approach for rapid, speckle-suppressed holography.
Comparison of state-of-the-art Computer Generated Holography algorithms and a machine learning approach
Foundational comparison of computer-generated holography algorithms against a machine learning approach.