Resonant Field Theory applied to condensed matter physics
LatticeOne v1.0
RFT Engine Preview — Materials
The same physics engine, applied to condensed matter.
Research Preview · Coming Soon
LatticeOne v1.0
The same Resonant Field Theory engine that powers LatticeZero’s molecular
docking extends to condensed matter physics. Early results show
sub-2% accuracy on fundamental material properties across
80 elements of the periodic table — from lithium to uranium,
including 9 resolved anomaly classes (ferromagnets, lanthanide f-block,
Peierls distortions, and more).
1.96%
Sound Velocity
RMS error across 74 elements
4.31%
Debye Temperature
RMS error across 51 elements
31/74
Sub-1% Accuracy
Elements within 1% of experiment
1.09%
Binary Alloys
Ti₃Al, Cu₇₀Zn₃₀ validated
Showcase Elements
BiBismuth0.003%
CaCalcium0.008%
SnTin0.039%
SiSilicon0.441%
PtPlatinum0.659%
AlAluminum1.742%
Try the Materials Engine
Select an element or build a binary alloy — get instant RFT predictions.
Research Preview — simplified model for demonstration. Results are indicative, not production-validated.
50 / 50
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Sound Velocity (vL)
m/s
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Transverse (vT)
m/s
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Debye Temperature
K
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Density
kg/m³
Interested in drug discovery?
LatticeZero uses the same RFT engine for molecular docking with sub-second virtual screening.