1. [1]S. Tokita, Visualization of Orbitals (6) Probability Density Distribution in the Three Dimensional Representation of Hydrogen 1s − 6h Orbitals in a Glass Block Part 1, J. Comput. Chem. Jpn, 15, A35–A38 (2016); in Japaese; .doi:http://doi.org/10.2477/jccj.2016-0025

2. [2]S. Tokita, Visualization of Orbitals (7) Probability Density Distribution in the Three Dimensional Representation of Hydrogen 1s − 6h Orbitals in a Glass Block Part 2, J. Comput. Chem. Jpn, 15, A47–A50 (2016); in Japanese; .doi:http://doi.org/10.2477/jccj.2016-0051

3. [3]S. Tokita, Visualization of Orbitals (9) Hydrogen Atomic Orbital as a Standing Wave, J. Comput. Chem. Jpn, 17, A11–A14 (2018); in Japanese; .doi:http://doi.org/10.2477/jccj.2018-0002

4. [4] M. Dayah, (1997, October 1), Ptable: The Interactive Periodic Table. Retrieved July 9, 2019, from Ptable: https://ptable.com, https://www.ptable.com/?lang=ja#Orbital (Japanese version). https://www.ptable.com/about.html: (Complete orbital readout for each element's ground state, quantum numbers, oxidation states, and diagram following Hund's rules. Hover over each electron pair for a 3-D view of that orbital or hover over the element to view its highest energy level electron pair).

5. [5] K. Mikami, Me de Tanosimu Genso Visual Zukan, Yosensha Co., Tokyo (2013), p. 90–91., in Japanese., Electron clouds of the elemens 1–103 are shown by the probability densities of atomic orbitals (references [1–3]), however, the pictures are very small and details are not clear.