Visible Photons and Energy Orbits

1 Orbits of Atom
1.1 Hydrogen atom
Fig. 1 Image of vandadiumdi hydride
Fig. 2 Image of H atom
Fig. 3 Layered internal structure
Fig. 4 Orbits of H atom
Figs. 5(a)-(h) Orbits of H atom with the grayscale ranges
Fig. 6 Bond between H and V atoms
Fig. 7 Overall orbits of H atom
Fig. 8 Links between the planes of orbits
Fig. 9 Radius of the nearest orbit
Fig. 10 Corners between the ground plane and first O81
Fig. 11 Separation of corners
Fig. 12 A. Orbits on side wall of O81. B‐.D. Orbits on other side wallsof O81.
Fig. 13 A. Partial orbits at corner A, B‐.D Partial orbits at corners B, C and D.
Fig. 14 Completed orbits between the ground plane and the first O81
Fig. 15 Shapes of individual orbits.
Fig. 16 Side walls between the ground plane and the first O81
Fig. 17 Orbits of artificial photons
1.2 Si atom
Fig. 18 Arrays of Si atoms
Fig. 19 Spatially layered artificial light on Si atom
Fig. 20 Physical shape of artificial photons
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Fig. 21 Physical shape of artificial photons
Fig. 22 Collision of a photon with artificial light
Fig. 23 Networks of artificial photons
Fig. 24 Overall orbits of one single photon

2 Orbits of Laser Light
2.1 Laser light on a wafer
Fig. 1 Concentric rings of laser
Fig. 2 Distribution of pixel counts
Fig. 3 Diffraction patterns of laser light
Fig. 4 Bright and dark regions
Fig. 5 Orbits and physical shapes of a laser photon
Fig. 6 A. Orbits of dark substances, B. Orbits redrawn in dark
substances
2.2 Laser light on a plastic substrate
Fig. 7 A. Pattern of laser light, B. Dark substances
Fig. 8 Orbits of dark substances. The scale bar represents 200 nm
Fig. 9 A. Dark substances, B. Orbits
Fig. 10 Orbits of laser photons distributed in the bright regions in Fig.9A
Fig. 11 Interfacial orbits between negative and positive energies.
Fig. 12 Laser photon and a dark substance
Fig. 13 Physical shapes and orbits of a laser photon
Fig. 14 Overall orbits
Fig. 15 Orbits of a laser photon
Fig. 16 Bond between laser photon and dark substance
Fig. 17 Overall orbits of dark substances
Fig. 18 Dynamic substances
Fig. 19 Orbits of substances
Fig. 20 Overall orbits
Fig. 21 Orbits of laser photon
Fig. 22 Dynamic orbits of dark substances
Fig. 23 Dynamic orbits of one single dark substance viii
2.3 Laser light on a thin film
Fig. 24 Distributions of photon and plasmon energies.
Fig. 25 Networks of photons
Fig. 26 Orbits of networked photons
Fig. 27 Detailed Shapes of photons
Fig. 28 Orbits of a single photon
Fig. 29 Shapes and orbits of a photon
2.4 Laser light on a wafer scratch
Fig. 30 Laser light on a scratch
Fig. 31 Streams of dark substances
Fig. 32 Distributions of dark substances and photons
Fig. 33 Orbits and shapes of photons.
2.5 Laser light on wafer impurities
Fig. 34 Laser light surrounding impurities
Fig. 35 Interfaces between photons and plasmon carriers
Fig. 36 Orbits in the region marked with the blue box in Fig. 35C
Fig. 37 Orbits in the region marked with the red circle in Fig. 35C
Fig. 38 Distribution of pixel counts as a function of the grayscale Summary

3 Orbits of the Sun
3.1 Sun plasma
Fig. 1 A.Image of the Sun, Courtesy of NASA. B.Black and white
version of Fig. 1A
Fig. 2 A. Surface of the Sun, B. Space of laboratory plasma
Fig. 3 Orbits of a Sun’'s ion
Fig. 4 Orbits of particles of Sun plasma
Fig. 5 Overall orbits on Sun surface
Fig. 6 Orbits of ions and photons
Fig. 7 Orbits of dark matter around the Sun
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Fig. 8 A. Outer Orbits, B. Orbits beyond the outer orbits,
C. Non-circular orbits
Fig. 9 Dusts on the orbits of dark matter
3.2 Laboratory plasma
Fig. 10 Orbits of particles in a laboratory plasma
Fig. 11 Orbit distributions of charged particles in plasma
Fig. 12 Monitoring of plasma particles using laser light
Fig. 13 Ion streams in plasma
Fig. 14 Overall orbits of electrons, ions, and photons.
3.3 Sun ray
Fig. 15 Sun ray
Fig. 16 Orbits drawn in Fig. 15B
Fig. 17 Orbits drawn in Fig. 15C
Fig. 18 Shapes of substances
Fig. 19 Detailed shapes of Sun ray’'s substances
Fig. 20 Dark energy around the substances
3.4 Real photons of the Sun
Fig. 21. Strings of photons
Fig. 22. Photon gel containing photons
Fig. 23. Dried photon gel
Fig. 24. Traveling photons

4 Orbits of Others
4.1 Plasmon on a coated film
Fig. 1 Arrays of plasmon carriers
Fig. 2 Orbits of plasmon carriers in an atom
4.2 Plasmon on a blanket
Fig. 3 A. Plasmon speckle in a concaved spot, B. Distribution of
carriers of plasmon
Fig. 4 Orbits of plasmon carriers
Fig. 5 Overall orbits of plasmon
x
4.3 Plasmon dusts
Fig. 6 Orbits of plasmon dust
Fig. 7 Orbits of plasmon dust
Fig. 8 Physical shape of plasmon dust
4.4 Photons in skin damage
Fig. 9 View of skin damage in forearm
Fig. 10 Overall orbits of skin damage
Fig. 11 Overall orbits of severed skin damage
Fig. 12 Magnified orbits of severed skin damage
Fig. 13 Orbits in the normal skin subject to a weak fluorescent light
Fig. 14. Orbits of a photon
Fig. 15 Orbits of two coupled photon
Fig. 16 Orbits of one single photon
Fig. 17 Orbits of the photon in Fig. 16
Fig. 18 Photons on skin damage
Fig. 19 Orbits of a photon in region A
Fig. 20 Orbits of the left photons in region B
Fig. 21 Orbits of the right photon in region B
Fig. 22 Orbits of the photons in region C
4.5 Photons in human eye
Fig. 23 Right eye with one hair crossing
Fig. 24 Orbits of a photon
Fig. 25 Bonds between photons.
Fig. 26 Orbits of the photons in region 3
Fig. 27 Orbits of the photons in region 4
4.6 Finger damage
Fig. 28 Finger damage by an electric current
Fig. 29 Magnified view of damaged thumb
Fig. 30 Overall orbits of damaged thumb
Fig. 31 Orbits of damaged region
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4.7 Synapse of mouse brain
Fig. 32 Synaptic structure of a mouse brain
Fig. 33 Orbits drawn in Fig. 32
Fig. 34 Orbits in the region marked in Fig. 33
Fig. 35 Orbits in the region marked in Fig. 34
Fig. 36 Orbits around electric nodes
4.8 Electrons of scanning electron microscope
Fig. 37 Orbits of aggregated electrons.
Fig. 38 Orbits of upper two electrons
Fig. 39 Orbits of lower two electrons
Fig. 40 Distribution of hot electron energies
4.9 Charge transfer through laser light
Fig. 41 A. Laser light pattern before discharge, B. Laser light pattern after discharge
Fig. 42 Photons on Zn material
Fig. 43 Overall orbits
Fig. 44 Distribution of pixel counts
Proposed Atomic Model