Quantum Design’s patented high-symmetry SQUID design and electronics provide the most rugged and sensitive all-thin-film sensors commercially available, and give you everything you need to configure flexible, powerful detection systems for your research. These sensors can easily withstand the rigors of a laboratory environment such as repeated temperature cycling. Their robust performance offers a level of reliability and adaptability that has earned QD a worldwide reputation as the SQUID of choice. OEM services are also available for special commercial applications.
Quantum Design's patented high-symmetry SQUID design and electronics provide the most rugged and sensitive all-thin-film sensors commercially available, and give you everything you need to configure flexible, powerful detection systems for your research.
DC SQUID Systems
SP5000 – High performance DC SQUID controller for up to eight channels (not CE Compliant)
- Remote computer and GPIB port.
- Simultaneous overall display of one to eight channels on the front panel LCD show independent values for range, gain, bandwidth, status, and filter states.
- 16-bit A/D converter is capable of multiplexing all eight channels of SQUID output.
SP550 – Single channel DC SQUID controller (CE Compliant)
- Low power, low noise electronics in a compact package.
- Enhanced tuning capabilities to ease optimization for low-noise operation.
- Compensation for zero temperature coefficient.
Biotechnology & Chemistry
nB nanoScale Biomagnetics introduces the DM5 Series, the integral, immediate and reliable solution for laboratory tests on magnetic hyperthermia.
The MPMS 3 incorporates major advances in data acquisition, temperature control and magnetic field control with ≤10-8 emu sensitivity. The award- winning design of Quantum Design’s MPMS 3 also provides expanded software functionality within its user-friendly MultiVu interface.
The PPMS DynaCool, Quantum Design’s latest development effort, uses a single two-stage Pulse Tube cooler to cool both the superconducting magnet and the temperature control system, providing a low vibration environment for sample measurements.
The high-performance, compact IR Image Furnace from Quantum Design offers unsurpassed performance in a convenient, stand-alone design. Rivaling much larger and more costly IR furnaces, it uses the Floating Zone (FZ) method to promote single crystal growth from a polycrystalline rod.
Single Quantum’s Eos X10 CS is a superconducting nanowire single photon detector (SNSPD) closed-cycle system with unparalleled detection efficiency in the near infrared spectrum.
The NanoFrazor is a unique tool for rapid prototyping of 3D nano-structures and nano-devices. The patterning principle of the NanoFrazor technology is based on Thermal Scanning Probe Lithography (t-SPL) which originates from IBM Rueschlikon.