Article:

Studying Quantum Biology 3
https://kyonissho.com/kyos-blog/blog/2025/01/01/studying-quantum-biology-3-2/

Update:

(1) before fig.3.6b.1

There are two important requirements of Hilbert space as essence of the short range quantum physics,
(1) the entire amount is 0 (lim |T - Tn| = 0),
(2) existence as change e.g. from H space to K space are projected to 0 ((1)'s 0 is restore to T).
Here T is the linear operator.

...

(fig.3.6b.1)

(2)

from

Fig.3.6b.1 and fig.3.6b.2:
...

to

Fig.3.6b.1 and fig.3.6b.2 as for example:
I've solved the entire_+ + entire_- = 0 with i0 of the imaginary number space, then l^d becomes possible to calculate especially in spins, and almost things we treat for Cosmos are in spins, although (line → 0) = (spin → 0), here we need i0 with including (-n)^d = -n^d domain.

Naturally scientists aim to exceed l^2 space, far range quantum physics, to calculate dark matter, and to realize quantum biology. i0 to [0, 0] is the axiom.

In 16th century Islam brought "0" to Europe, people waited the church's examination of which "0" was a demon number or not, or people were afraid of misuse of "O". Since 18th century mathematician began to show the progresses. Rene Descartes's political effort to use 0 is famous. At same age music was becoming different, and the second industrial revolution began (the first revolution was the agriculture based on calendar about Abraham ara especially in Egypt).
I agree that Hesse wanted to add the romanticism began since the late 18th century.

(C) Copyright 2025 Kiyom Nishio (Kyo Nissho). All rights reserved.