Actually, I haven't been updating this place because I'm going through the boring phase of initiating a research project: red tape, gathering articles/books, reading through the starting pages of these, which don't suggest much.
I take note to make a calculation explaining why Brownian motion (always have to be considered in quantum effects) would not affect the hydrogen plasma - the low probability that these protons under high potential (not really; you're already at >50++ times of it at 1V in room temperature) migrate to a much lower thermal energy scale, kT.
Off-topic: I spotted an error in the 'derivation' (I don't think there's such a thing, really) of the time-dependent Schrödinger equation on one of the books. It's always useful to derive it yourself as you read.
I take note to make a calculation explaining why Brownian motion (always have to be considered in quantum effects) would not affect the hydrogen plasma - the low probability that these protons under high potential (not really; you're already at >50++ times of it at 1V in room temperature) migrate to a much lower thermal energy scale, kT.
Off-topic: I spotted an error in the 'derivation' (I don't think there's such a thing, really) of the time-dependent Schrödinger equation on one of the books. It's always useful to derive it yourself as you read.
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