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Function: Uses photons as qubits for computation and entanglement.
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Optics Needed: Low-loss waveguides, beam splitters, phase shifters, and interferometers.
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Materials: Thin-film lithium niobate (TFLN), silicon nitride (SiN), aluminum nitride (AlN).
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Breakthroughs: Xanadu and HyperLight’s TFLN chips now achieve <2 dB/m waveguide loss and 20 mdB switch loss—crucial for scalable quantum photonic circuits
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Function: Manipulate atomic transitions using laser light.
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Optics Needed: UV-grade lenses, mirrors, and filters for precise excitation.
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Use Case: Quantum gates and readout in ion-trap architectures.
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Function: Operate at cryogenic temperatures with microwave and IR control.
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Optics Needed: IR-compatible optics for signal routing and shielding.
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Emerging Role: IR pulses used to induce molecular vibrations for quantum control
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Function: Replace bulky optical setups with ultra-thin, nanostructured layers.
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Optics Needed: Subwavelength metasurfaces etched for entanglement and interference.
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Advantage: Scalable, robust, and room-temperature compatible quantum processors
RMI Products Designed For You
Opto-Mechanical Assemblies
Opto-mechanical imaging optics are engineered to deliver high-resolution visuals across UV, visible, and infrared (IR) wavelengths. Designed for demanding environments in medical diagnostics, aerospace surveillance, scientific instrumentation, and industrial inspection, our assemblies ensure sharp, reliable performance with optimized alignment and thermal stability.
Precision Optics
Precision optics are engineered for high-resolution imaging, laser beam delivery, and spectral analysis across UV-IR spectrum. Designed for industries including medical diagnostics, precision agriculture, environmental monitoring, and telecommunications, our components ensure accurate light transmission, minimal signal distortion, and long-term durability.
Laser Optics
Laser optics are engineered for accurate beam shaping, high-power handling, and minimal wavefront distortion across UV, visible, NIR, and IR wavelengths. Our components support demanding applications in material processing, medical laser systems, telecommunications, and scientific research, delivering consistent performance and long-term reliability.
Quantum Computing
At Rocky Mountain Instruments, our precision optics and advanced thin-film coatings support the evolving demands of quantum computing systems. From ultra-low absorption mirrors to custom beam-splitting components, RMI delivers high-performance solutions tailored for quantum photonics, cryogenic environments, and entangled photon generation. Our vertically integrated manufacturing—from diamond-turned IR substrates to deep UV coatings—ensures tight tolerances and spectral fidelity across quantum wavelengths.
Core Capabilities: