attocube systems
attocube delivers cutting-edge solutions in nanopositioning, cryogenic technology, and nanoscale analytics to empower research and industry worldwide.
Exploring the Nanoscale with Precision
attocube systems GmbH is a leading innovator in the field of nanotechnology and precision instrumentation, headquartered in Munich, Germany. The company specializes in developing cutting-edge solutions for research and industry, enabling scientists and engineers to explore the world at the nanoscale.
Cryogenic Technology and Microscopy
attocube offers closed-cycle cryostats, compact compressors, and scanning probe microscopes tailored for low-temperature applications. These systems are essential for quantum technology, material science, and nanostructure analysis. attocube’s cryogenic platforms combine efficiency and mobility, making them ideal for both laboratory and industrial settings. A key innovation is the IGLU compressor, the world’s first helium compressor designed for integration into standard 19-inch racks. It enables cryogenic operation below 4 K without the need for complex infrastructure such as cooling water or high-voltage power lines.
Combined with attocube’s attoCMC cryostat, this technology brings quantum applications out of the lab and into industrial environments, supporting fields like quantum computing, photonic qubits, and superconducting detectors.
Your partner for nanoscale solutions
attocube designs and manufactures piezo-based nanopositioning systems and high-accuracy interferometric sensors. These solutions allow for ultra-precise movement and measurement in challenging environments such as vacuum, cryogenic temperatures, and high magnetic fields. Industries like semiconductor manufacturing, automation, and advanced research rely on attocube for unparalleled accuracy.
attocube provides advanced platforms for optical near-field microscopy, integrating atomic force microscopy with infrared and terahertz spectroscopy. This enables researchers to perform high-resolution imaging and material characterization at the nanometer scale, opening new possibilities in physics, chemistry, and life sciences.
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