ACT tunnel-junction wake switch
YES for the tunnel junction.
NO for the conventional low-bias PN junction in the same wake-switch regime.
The tunnel junction is modeled as a heavily doped narrow PN junction with overlapping states, so quantum barrier transfer is possible. That makes sub-threshold current possible in the low-forward-bias regime, which in turn makes ultra-low-bias switching possible for the wake circuit. Because the device is also scanned through a peak-to-valley window, a negative differential response is possible as well. By contrast, the conventional junction lacks the structural conditions for the same transfer mode, so it cannot deliver the same low-bias switching task in this case.
C1 OK - the tunnel junction can support quantum barrier transfer
C2 OK - the tunnel junction is classified as tunneling-dominant
C3 OK - the tunnel junction can deliver sub-threshold current
C4 OK - the tunnel junction can show negative differential response
C5 OK - the tunnel junction can perform ultra-low-bias switching
C6 OK - the tunnel junction can serve the leak-alarm wake circuit
C7 OK - the conventional junction cannot support the same quantum barrier transfer
C8 OK - the conventional junction cannot deliver sub-threshold current in this regime
C9 OK - the conventional junction cannot show the tunnel-style negative differential response
C10 OK - the conventional junction cannot perform ultra-low-bias switching here
C11 OK - the conventional junction cannot serve the leak-alarm wake circuit in this case