Website under construction.
Website under construction.
RX-AMS
⬤
Rhonexum is working on RX-AMS, an automated system for fast, accurate cryogenic device testing — no manual probing, no thermal cycling delays.
At cryogenic temperatures, traditional test setups break down. Manual probing is fragile and inconsistent. Thermal cycles take hours. A single contact failure can delay an entire run. RX-AMS solves this with automated alignment, high-reliability measurements, and seamless data capture.
At cryogenic temperatures, traditional test setups break down. Manual probing is fragile and inconsistent. Thermal cycles take hours. A single contact failure can delay an entire run. RX-AMS solves this with automated alignment, high-reliability measurements, and seamless data capture.
tiny chip with
eletronics pads
eletronics pads
probe tip
probe arm
● A single probing step might seem small, but errors here can cost weeks and thousands. Manual probing is slow, prone to mistakes, and hard to scale.
As the number of devices you need to characterize grows, the operational costs of traditional manual probing become unsustainable, quickly bottlenecking your entire research pipeline.
OPERATIONAL COSTS EVOLUTION: N.º OF DEVICES IN THE CHAMBER
(X) number of devices in the cryogenic chamber
(Y) operational cost to perform 10 measurement on a device
(x) number of devices in the cryogenic chamber
(Y) operational cost to perform 10 measurement on a device
The shift to scaled quantum computing demands a radical change in how we validate hardware. The RX-AMS is more than just a measurement tool; it's the key to achieving unprecedented throughput and reliability in cryogenic environments. Stop losing valuable time and resources to fragile manual processes and thermal cycling delays.
© 2025 Rhonexum. All rights reserved.
[ OPERATIONAL COSTS ]
[ MANUAL PROBING ]
[ OPERATIONAL COSTS ]
[ MANUAL PROBING ]