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Non-Interference Pattern Evolving to Interference Pattern, Non-Diffraction Pattern Evolving to Diffraction Pattern, and Two Non-Diffraction Patterns Evolving to Diffraction-Interference-Hybrid Pattern -Advances in Optical Experiments Demanding New Theory
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We experimentally show novel phenomena: (1) in the same double slit or cross double slit experiment, within macroscopic distances from diaphragm, the patterns are non-interference and gradually evolve to the interference patterns near the screen; (2) in the same single slit or cross single slit experiment, within macroscopic distances from diaphragm, the patterns are nondiffraction and gradually evolve to the diffraction patterns near the screen; (3) in the same non-parallel-two-slits experiment, within macroscopic distances from diaphragm, the patterns are diffraction and gradually evolve to the diffraction-interferencehybrid patterns; (4) the diffraction-interference hybrid patterns are angle-dependence. To interpret consistently above phenomena is the challenge to the existing wave theories of the physical optics. Advances in optical experiments demand new theory
Title: Non-Interference Pattern Evolving to Interference Pattern, Non-Diffraction Pattern Evolving to Diffraction Pattern, and Two Non-Diffraction Patterns Evolving to Diffraction-Interference-Hybrid Pattern -Advances in Optical Experiments Demanding New Theory
Description:
We experimentally show novel phenomena: (1) in the same double slit or cross double slit experiment, within macroscopic distances from diaphragm, the patterns are non-interference and gradually evolve to the interference patterns near the screen; (2) in the same single slit or cross single slit experiment, within macroscopic distances from diaphragm, the patterns are nondiffraction and gradually evolve to the diffraction patterns near the screen; (3) in the same non-parallel-two-slits experiment, within macroscopic distances from diaphragm, the patterns are diffraction and gradually evolve to the diffraction-interferencehybrid patterns; (4) the diffraction-interference hybrid patterns are angle-dependence.
To interpret consistently above phenomena is the challenge to the existing wave theories of the physical optics.
Advances in optical experiments demand new theory.
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Advances in Optical Experiments Demanding New Optical Theory
--- Non-Interference Pattern Evolving to Interference Pattern,
Non-Diffraction Pattern Evolving to Diffraction Pattern, and
Two Non-Diffraction Patterns Evolving to Diffraction-Interference-Hybr
We experimentally show novel phenomena: (1) in the same double slit or cross double slit experiment, within macroscopic distances from diaphragm, the patterns are non-interference ...
Advances in Optical Experiments Demanding New Optical Theory
--- Non-Interference Pattern Evolving to Interference Pattern,
Non-Diffraction Pattern Evolving to Diffraction Pattern, and
Two Non-Diffraction Patterns Evolving to Diffraction-Interference-Hybr
Advances in Optical Experiments Demanding New Optical Theory
--- Non-Interference Pattern Evolving to Interference Pattern,
Non-Diffraction Pattern Evolving to Diffraction Pattern, and
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We experimentally show novel phenomena: (1) in the same double slit or cross double slit experiment, within macroscopic distances from diaphragm, the patterns are non-interference ...
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