What are ion traps and why are they critical for quantum computing?
Ion traps play a pivotal role in quantum computing, quantum entanglement, and precision spectroscopy, where maintaining charge stability is essential. FEMTOPRINT’s monolithic construction ensures superior surface quality, minimal charge build-up, and ultra-high vacuum (UHV) compatibility.
How does 3D glass microfabrication improve ion trap performance and quantum fidelity?
By leveraging realization of complex 3D geometries for improved control on quantum states, ion traps produced with the FEMTOPRINT process facilitate the stable confinement of ions, reducing decoherence and maximizing quantum fidelity.
This ensures that researchers and developers can push the boundaries of quantum supremacy and fault-tolerant quantum computing.
What are the main applications of glass ion traps in quantum technology?
Whether used in optical atomic clocks, precision spectroscopy, sensing, quantum communication, or quantum computing and simulation, ion traps are core devices with exceptional requirements. This is in terms of geometrical accuracy, profile complexity, surface quality and product performance.
Who manufactures precision 3D glass ion traps for quantum computing and sensing?
Our expertise extends to the 3D micro-manufacturing of complex Ion Traps. These are machined with intricate details. These unique masterpieces are more than devices; they are pathways shaping innovation in a three-dimensional space, thus enabling breakthroughs across different applications.
Get in touch today to explore our ion trap manufacturing capabilities for your quantum needs!
Monolithic fabrication compatible with wafer-scale volume production
Complex 3D geometries
Overhanging structures
Minimum trench width < 10 µm
Sharp or curved edges
Single-µm tolerances
Unique engineering know-how in core quantum products
Support to product development through wafer-based scale-up production
ISO 9001 certified procedures compatible with fab foundries standards
Monolithic fabrication of complex, three-dimensional traps with integrated optical & photonic components
A vertically integrated platform. They include metallic coatings, precision assembly of multi-layer traps and functional quality control
