Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Testing a Mechanical Behavior of Light
Document related concepts
History of quantum field theory wikipedia , lookup
Matter wave wikipedia , lookup
Atomic theory wikipedia , lookup
Hidden variable theory wikipedia , lookup
Bell test experiments wikipedia , lookup
Quantum electrodynamics wikipedia , lookup
Wave–particle duality wikipedia , lookup
Ultrafast laser spectroscopy wikipedia , lookup
Quantum key distribution wikipedia , lookup
X-ray fluorescence wikipedia , lookup
Theoretical and experimental justification for the Schrödinger equation wikipedia , lookup
Bohr–Einstein debates wikipedia , lookup
Double-slit experiment wikipedia , lookup
Transcript
Testing a Mechanical Behavior of Light Luiz Eduardo Sauerbronn Marcelo Dreux Rodrigo José Correa Maurício Elarrat NPA 2012 Lunar libration Testing a mechanical model of photon: An excentric sphere describing a cycloid presents mass and wave behavior Goal: - Use Newtonian Mechanics to model known behaviors of Light: - Diffraction Experiment - Color Experiment - Quantum decay Experiment Testing the proposed photon model: Single slit diffraction experiment Testing the proposed photon model: Experimental result observed in the bulkhead Testing the proposed photon model: Experimental result observed in the bulkhead Testing the proposed photon model: Experimental result observed in the bulkhead (image magnified) Testing the proposed photon model: An excentric sphere collides against the single slit Testing the proposed photon model: The collisions are Elastic and Newtonian Testing the proposed photon model: Kinematics Testing the proposed photon model: Excentric sphere colliding against the slit Conservative Energy and Momentum Dynamics Testing the proposed photon model: After a large number of excentric spheres has been thrown against the single slit, what is the expected pattern in the bulkhead? Results Results The results indicate a pattern relatively similar to the experimental results Results When we reduce the aperture of the slit ,the widths of the fringes reduce as well, indicating a clear correlation with the single slit experiment Colors The CIE1931 Color Model (Smith, T., Guild, J., "The C.I.E. colorimetric standards and their use". Transactions of the Optical Society 33 (3): 73–134, 1931) Green source Metameric colors: The same perceptual color can obtained by different combinations of monochromatic light sources Red source Blue source So... modeling colors using Newtonian mechanics... The same collision system used in diffraction is used to model colors... After each collision the frequency changes... The output frequency depends on the light source and the material... Examples of input and output frequencies Input frequency Red (425THz) Frequencies after collisions Examples of input and output frequencies Input frequency Green (542THz) Frequencies after collisions Examples of input and output frequencies Input frequency Blue (695THz) Frequencies after collisions Quantum decay Sample (Petroleum derivative called Neosine) Photodetectors Pulsed Laser (100ns) Quantum decay of Neosine (Petroleum derivative) obtained from Bacia de Campos (Brazil) Numerical results (pink) and Experimental results (dark blue) The quantum decay depends on the photon’s exit angle. The time to return to the photodetector depends on the tangent of this angle. Newtonian mechanics Diffraction Colors Quantum decay Future work: Based on Black Body Radiation and known melting process (water), estimate the photon’s melting point and its thermodynamical properties (~273K) (~4000K) Light and water: similar mechanisms?
