CRYONANO
THINK SCIENCE
Precision Isolated Voltage Source
[QuantumVibe]
The CryoNano QuantumVibe is a state-of-the-art isolated voltage source designed specifically for nanoelectronics and quantum transport experiments. With precision voltage control, ultra-low noise, and the ability to stack outputs, the QuantumVibe is tailored for quantum systems, graphene devices, and fractional quantum Hall systems. It delivers four isolated bipolar outputs, each offering ±10V (stackable to ±40V), ensuring researchers can finely tune and control gate voltages for cutting-edge experimentation.
The QuantumVibe offers unparalleled stability and precision, with a 16-bit DAC for fast adjustments, providing a consistent and low-noise environment ideal for sensitive quantum transport measurements. Integrated with LabView compatibility and a USB 2.0 interface, it provides seamless integration into complex research setups.
Product Description
The CryoNano QuantumVibe is a state-of-the-art isolated voltage source designed specifically for nanoelectronics and quantum transport experiments. With precision voltage control, ultra-low noise, and the ability to stack outputs, the QuantumVibe is tailored for quantum systems, graphene devices, and fractional quantum Hall systems. It delivers four isolated bipolar outputs, each offering ±10V (stackable to ±40V), ensuring researchers can finely tune and control gate voltages for cutting-edge experimentation.The QuantumVibe offers unparalleled stability and precision, with a 16-bit DAC for fast adjustments, providing a consistent and low-noise environment ideal for sensitive quantum transport measurements. Integrated with LabView compatibility and a USB 2.0 interface, it provides seamless integration into complex research setups.
Applications
Designed for precision cryogenic and quantum mesurements
Quantum Hall Systems:
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Control the gate voltages for multi-terminal quantum Hall systems, enabling experiments on edge modes and topologically protected states.
Graphene & 2D Materials:
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Back-gate and tune the carrier density in graphene and other 2D materials, crucial for the fabrication and testing of next-generation nanoelectronics devices.
I-V Spectroscopy:
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Essential for I-V spectroscopy in fractional quantum Hall systems, providing low-noise voltage sources for high-precision conductance measurements.
Quantum Computing:
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Precision voltage sources for quantum transport measurements in qubits and other quantum computing components.
Key Features
Engineered for precise cryogenic and quantum transport experiments
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Precision Output Control: Four isolated bipolar outputs (±10 V each), stackable up to ±40 V for multi-device control.
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Ultra-Low Noise & High Stability: Minimal noise and temperature drift for quantum transport and nanoelectronics.
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Versatile Gate Voltage Control: Optimized for quantum Hall systems, graphene back-gating, and I-V spectroscopy.
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Independent Signal Paths: Synchronized updates across all four channels for multi-terminal measurements.
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Integrated Protection: ±30 V overvoltage and short-circuit protection on every channel.
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High-Speed Operation: 16-bit DAC with fast slew rates for time-critical experiments.
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USB Control & Automation: USB 2.0 interface with LabVIEW drivers for seamless automation.
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Minimal Crosstalk: High channel isolation for clean, stable, noise-free outputs.