MONOPOLE TECH

The Future of Magnetic Detection

DETECTOR v3.1 / SERIES M

68.5e Magnetic Charge
1016 GeV Sensitivity
0.3ms Response Time
SQUID Core Technology

Precision Detection

Built on superconducting quantum interference, the Monopole Tech detector identifies isolated magnetic charges with unprecedented sensitivity. Our SQUID-based array captures flux changes as small as a single quantum.

Inspired by Blas Cabrera's 1982 Valentine's Day event, refined with four decades of engineering.

How It Works

When a magnetic monopole passes through the detector's superconducting loop, it induces a quantized flux change. The SQUID magnetometer converts this to a measurable electrical signal.

Dirac's quantization condition guarantees the signal is discrete: exactly one flux quantum per monopole transit.

FLUX QUANTUM TRANSITION SQUID LOOP MONOPOLE

Version History

v1.0

1982 - Original Prototype

Single-loop SQUID detector. One candidate event recorded on Valentine's Day. Never replicated.

v2.0

1997 - MACRO Array

Multi-detector array under Gran Sasso. Expanded search area by 10,000x. No detections.

v3.0

2010 - MoEDAL at LHC

Passive nuclear track detectors at CERN. Searching collider-produced monopoles at TeV scale.

v3.1

Current - Enhanced Detection

AI-assisted signal analysis. Expanded cosmic ray monitoring. Multi-site synchronization.