Light Spiral: Quantum Leap
Light Spiral is by definition a Quantum Wave. Particle clusters and photon packets (particle and wave duality). Molecules are reacting to energy waves that are coherent producing photon packets at 299 792 457.4999 m/s light speed (ls) (1983 Laser experiment, Frome and Essen Chart light speed 299 792 457.4 m/s with a ratio of error of +- 0.001) as long as the source is active. Photon packets is the energy being transmitted to electrons causing a quantum leap
Calculating Quantum Leap
Some basics physic's calculations for a quantum leap. Planck's constant (h) is 6.6260755 * 10ˉ³⁴ kg * m²/s.
Charge (q) is 1.60217733 * 10ˉ¹⁹ coulomb (coul).
Rest mass of a electron (Me) is 9.1093897 * 10ˉ³¹.
In order to produce a quantum leap, there is a frequency .20205755942417 Hertz (Hz) that applies to photons in order for the transmission of relativistic energy to cause a quantum leap at half a spin (.5).
Frequency equation example; .20205755942417 s/(299792457.49999 Hz/(4.9490848359521 Hz)) = 1.6508370081166 * 10ˉ⁸ s.
ls * 1.6508370081166 * 10ˉ⁸ s = 4.9490848359521 meters (m) which involves the transfer of energy (E).
".20205755942417 Hz" is the frequency needed in quantum leap equation.
Since, Planck's constant pertains to photons, a necessary change to factual data. Plank's constants becomes (ph) 6.6260755000002 * 10ˉ³⁴ kg * m²/s.
Photon's relative energy at rest is ph * Hz = 6.6260755000002 * 10ˉ³⁴ joules (J).
Half Spin
√(ph/q/((Me/coul * .20205755942417 Hz)/(299792457.49999 m)²)) = .5
Highest relativistic energy transfer
6.6260755000002 * 10ˉ³⁴ J/√(1-(ls²/ls²)) = 6.6260754889488 * 10ˉ²⁷ J
Relativistic mass increase of photon
From 7.3725033010833 * 10ˉ⁵¹ kg to 7.3725032887869 * 10ˉ⁴⁴