I dropped the plan to use SOR and spectroscopic way
because transition from ground state to DDL is almost impossible nuclear physics theory.
we need information of Copmress of H- below.
As I discussed in Cold Fusion mechanism from metal property not from nuclear physics.
Cold Fusion used the metal property and we have the similar experiment of H- compress.
https://www.jst.go.jp/pr/announce/20171031/index.html
負電荷をもつ水素の新たな性質を発見 ~圧縮しやすく、金属原子間の相互作用をブロック~
•Discovery of a New Property of Hydrogen with Negative Charge-Easy to compress and block interaction between metal atoms-
I believe that this experiment is caused by DDL and so we can use this way for the hydrogen study.
If the smaller hydrogen is stable we can use that sampe for the spectroscopic study.
It is not clear so someone who knows the researcher of the below members.
I sent message to 京都大学(Kyoto-university)
•山本 隆文 京都大学 工学研究科 助教、陰山 洋 教授らの研究グループは、
川上 隆輝 日本大学 准教授、John E. McGrady オックスフォード大学 教授、Michael A. Hayward 同教授らとの共同研究で
someone who knows the menbers above, could you send the info of DDL and my hypo(Compress caused DDL state-smaller hydrogen) ?
http://www.nikkei-science.com/?p=52072
水素原子の研究の基本となるのは分光観測(光スペクトルの観測)。水素原子は基底状態では,電子はエネルギー準位が最も低い軌道(1S状態)にあるが,例えば2S状態や2P状態などエネルギー準位が高い軌道も多数存在する。そうした軌道間のエネルギー差に相当するエネルギーを持つ光子を電子が吸収すると,例えば1S状態から2P状態への遷移が起こる。また2Pから1Sに遷移する場合は,そのエネルギー差に相当するエネルギーを持つ光子を放出する。だから水素原子が吸収・放出する光の波長や振動数を精密に観測することで,電子の軌道を詳しく調べることができる。これが分光観測だ。逆に電子の軌道のエネルギーがよくわかっていれば,特定波長のレーザー光を照射することで電子の軌道遷移を起こすことができる。
The basis of research on hydrogen atoms is spectroscopic observation (observation of optical spectrum). In the ground state of the hydrogen atom, the electrons are in the lowest energy level orbit (1S state), but there are many orbits with high energy levels such as 2S state and 2P state. When an electron absorbs a photon having an energy equivalent to the energy difference between such orbits, a transition from the 1S state to the 2P state occurs, for example. In addition, when it transits from 2P to 1S, it emits photons with energy equivalent to the energy difference. Therefore, by precisely observing the wavelength and frequency of light absorbed and emitted by hydrogen atoms, the orbits of electrons can be investigated in detail. This is spectroscopic observation. On the contrary, if the energy of the electron orbit is well known, it is possible to cause the orbital transition of the electron by irradiating the laser light of a specific wavelength.
Proposition
(1)To find the researcher of hydrogen electron orbit with SOR and ask them to study to find DDL
We have SOR lab in Japan and so Could you find the researcher who studies Hydrogen electron orbit in this article?
https://www.jstage.jst.go.jp/a…su1932/57/4/57_4_528/_pdf
lenr-forum.com/attachment/13492/
KEK(高エネルギー研究所) is the best.
http://www.spring8.or.jp/ja/ne…esearch_highlights/no_72/
English page
https://coldfusionblog40835089…/05/maly_deep_dirac_i.pdf
page-4 table1A
Is 500MeV necessary to put electron to DDL????
If so the available SOR facility is limitted.