ZN50R DC/RF Probes

Robust and versatile ZN50R probes are ideal for DC biasing, low/high frequency measurements, low noise shielded, and low-leakage guarded measurements. The ZN50 probe mount incorporates a pair of copper braids (not shown below) that anchor to the sample stage to cool the probe. An SMA connector is mounted directly to the alumina ceramic blade with a 50 Ω stripline routed to the probe contact.


Lake Shore ZN50R DC/RF probeProbe P/NTip materialTip radius (µm)
ZN50R-03-WTungsten3
ZN50R-10-W10
ZN50R-25-W25
ZN50R-03-P7Paliney 73
ZN50R-10-P710
ZN50R-25-P725
ZN50R-03-BECUBeCu3
ZN50R-10-BECU10
ZN50R-25-BECU25
ZN50R-100-BECU100
ZN50R-200-BECU200

Probe tip materialDescriptionApplicationConductivityContact resistanceLifetime
Tungsten (W)General purpose; durableGood for varied surfaces; piercing oxide layersGoodLowBest
Beryllium copper (BeCu)General purpose; low contact resistanceTypical gold contact landing padsBetterLowerGood
Paliney 7 (P7—PdAu alloy)Specialized; low contact resistanceDelicate landing pads; minimizes scrubbingBestLowestGood


For over 25 years, the ZN50R probe has been the cryogenic probe industry standard. Originally designed by Eric Swartz of Desert Cryogenics, the ZN50R probe design is optimized for performance from 4 K up to 675 K. Simple needle probes common in room temperature probe stations transition from the signal cable directly to the probe tip with no mechanism for blocking heat flowing along with the electrical signal. Through a novel design, the ZN50R probe solves this dilemma. The probe transitions the signal from the signal cable to a temperature stable ceramic “blade” that is cooled by the probe mount prior to transitioning to the probe tip. The ceramic material is specifically chosen for its temperature and electrical stability. This design provides key thermal cooling of the probe tip and blocks unwanted heat to the sample.
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