Coinage Metals + Zn 4+1 Kernels

Cu 29, Ag 47, Au 79 trap behavior vs Zn 30 dielectric GND. Visualizing 4d105s1 uniqueness in Ag and why Zn is inert filler.

9.98 kHz
Cu
[Ar] 3d¹⁰ 4s¹
Z = 29
FREE
D Value
0.200
OUT Current
0.00 μA
Trap Depth
85%
Lasers
1
Ag
[Kr] 4d¹⁰ 5s¹
Z = 47
FREE
D Value
0.500
OUT Current
0.00 μA
Trap Depth
50%
Lasers
1
Au
[Xe] 4f¹⁴ 5d¹⁰ 6s¹
Z = 79
FREE
D Value
0.800
OUT Current
0.00 μA
Trap Depth
30%
Lasers
1
Zn
[Ar] 3d¹⁰ 4s²
Z = 30
GND
D Value
1.000
OUT Current
0.00 μA
Trap Depth
0%
Lasers
0
Deep Trap: Cu - electron captured, needs high temp/laser
Perfect Trap: Ag - stable hold, clean release on O1
Leaky Trap: Au - relativistic effects, spontaneous emission
No Trap: Zn - 3d104s2 paired, GND fill only

README: Kernel Physics & Zn as Dielectric GND

Why Zn is Inert Filler

Zn 30 has electron configuration [Ar] 3d10 4s2. The 3d subshell is fully filled with 10 paired electrons, and 4s2 gives 2 paired valence electrons. Result: 0 unpaired electrons = 0 "lasers" in kernel terms.

Coinage Metals: Cu, Ag, Au Trap Behavior

Group 11 elements share (n-1)d10 ns1 config, giving 1 unpaired s electron = 1 laser channel. But relativistic effects create distinct trap profiles:

Why 4d105s1 is Unique to Ag

Ag sits at the Goldilocks zone of the periodic table for electron trapping:

Control Behavior

IN Pulse: Injects one electron into all kernels simultaneously. Cu/Ag/Au attempt to trap per their well depth. Zn ignores it.

O1 Button: Simulates read/laser pulse. Trapped electrons in Cu/Ag/Au can be ejected to OUT if energy exceeds trap depth. Ag releases cleanly, Cu needs more work, Au leaks randomly.

10kHz Clock: System clock for measurement sampling. Visual indicator only.

Temp Slider: Lattice temperature 100K-600K. Higher T reduces trap depth via phonon excitation. Au leaky rate increases exponentially. Zn still inert.

D Value: Detuning/stability metric. Lower D = deeper trap = harder to switch. Ag maintains D≈0.5, Cu D≈0.2, Au D≈0.8 with noise, Zn D=1.0 fixed.

OUT Current: Ejected electrons per clock. Integrated over 100ms window.