SYSTEM STATUS
Detector Array:    [ACTIVE]
Field Sensors:     [ACTIVE]
SQUID Loop:        [STANDBY]
Data Pipeline:     [STREAMING]
Uptime:            33,847 days
Last Calibration:  2026-02-25T08:00:00Z
DETECTION LOG
[1982-02-14] Cabrera Event: 8Φ0 flux change
[1986-06-22] Candidate: rejected (noise)
[2002-11-15] IceCube: upper limit set
[2010-03-08] MoEDAL: no signal
[2024-09-01] MoEDAL Run3: analysis pending
[2026-02-25] Monitoring continues...
FIELD STRENGTH
Flux Density (nT)
 50 |          #
 40 |        # #
 30 |      # # #   #
 20 |    # # # # # #
 10 |  # # # # # # # #
  0 +--+--+--+--+--+--+--+--
    01 02 03 04 05 06 07 08
ABOUT
monopole.tech: Technical infrastructure
for magnetic monopole detection and
analysis. Operating since Dirac's 1931
prediction. A single monopole would
explain charge quantization -- the most
powerful constraint in physics from the
simplest possible cause.
MAGNETIC TOPOLOGY
        N                    Grand unified theories predict monopoles
       /|\                   as topological defects formed during the
      / | \                  GUT phase transition at ~10^16 GeV.
     /  |  \                 
    /   |   \                't Hooft-Polyakov monopoles arise as
---+----+----+---            solitonic solutions in non-Abelian gauge
    \   |   /                theories with finite mass determined by
     \  |  /                 the symmetry-breaking energy scale.
      \ | /                  
       \|/                   Emergent monopoles in spin ice crystals
        S                    provide condensed-matter analogues of
                             Dirac's fundamental prediction.
_