Cryo
Yantra
Technologies Pvt. Ltd
Cryoyantra is focused on developing and enabling advanced cryogenic infrastructure for research and industry. We specialize in low-temperature systems supporting quantum technologies, superconductivity, and next-generation materials.
Vision
To accelerate the future of quantum and deep-tech innovation through advanced cryogenic solutions.
To become a global leader in enabling next-generation technologies at extreme low temperatures.
Mission
To build scalable, high-performance cryogenic systems that bridge research and real-world
applications.
To empower startups, labs, and industry with reliable infrastructure for breakthrough innovations.
Products
VTI CryoStats
- Base temperature
attained ~ 1.5 K - Magnet integration.
Optical CryoStats
- Base temperature of 6 K
- Integration with vector
magnets
Probe Stations
Customizable Solutions
Dilution Refrigerator
Upcoming
LN2 Cryostat
Available on Request
- Base temperature 77K
- Integration with vector magnets
LHe Cryostats
Available on Request
LHe Transfer Tube
Applications
Quantum Computing Infrastructure
CryoYantra is dedicated to building the “Cold Heart” of the quantum processor. We provide the millikelvin environments essential for maintaining the coherence of the world’s most advanced qubits.
- Qubit Agnostic Cooling: Optimized thermal management for Superconducting (Transmon/Phase) qubits, Spin qubits in Silicon, and emerging Topological architectures.
- Scalable Architecture: Designed to handle the increasing heat loads of high-density coaxial cabling and cryo-electronics required for large-scale, multi-qubit quantum processors.
- Millikelvin Stability: High cooling power at the 10 mK–20 mK stage with sophisticated magnetic shielding to protect delicate quantum states from environmental decoherence.
Semiconductor Characterization
As the industry moves toward “More than Moore” and Cryo-CMOS architectures, CryoYantra provides the high-throughput testing environments needed for the next generation of silicon.
- Material Science & Wafer Testing: Facilitating low-temperature mobility measurements and defect analysis in wide-bandgap semiconductors and 2D materials.
- Automated Probing Solutions: Designed for integration with cryogenic probe stations to enable rapid, repeatable testing of superconducting interconnects and high-speed logic gates.
- Cryo-CMOS Development: Precision cooling for the characterization of CMOS devices operating at cryogenic temperatures to reduce thermal noise and improve switching speeds.
Space Exploration & Satellite Technology
CryoYantra’s specialized space-grade cryocoolers are engineered to withstand the extreme environments of orbit while maintaining the critical thermal stability required for advanced orbital instrumentation.
- High Reliability, Low SWaP: Optimized for minimal Size, Weight, and Power (SWaP) consumption with radiation-hardened components and vibration-isolated designs.
- Infrared & Thermal Imaging: Cooling high-sensitivity focal plane arrays for Earth observation, deep-space exploration, and climate monitoring satellites.
- Satellite-Based Quantum Communication: Providing the sub-Kelvin environments necessary for Superconducting Nanowire Single-Photon Detectors (SNSPDs) in Quantum Key Distribution (QKD) payloads.
Fundamental Academic Research
Built by researchers for researchers, our systems provide the versatility and stability required for high-impact physics and materials science experimentation.
- Advanced Magneto-Transport: Ultra-stable platforms for studying Ordinary, Anomalous, and Quantum Hall effects, as well as exotic phases of matter in topological insulators.
- Modular Experimental Inserts: Our signature “Y-Insert” architecture allows for rapid sample exchange and multi-user flexibility, accommodating optical windows, high-frequency RF lines, and DC wiring.
- Superconductivity Research: Precise temperature control for mapping Tc transitions, energy gaps, and BCS theoretical parameters in novel superconducting materials.