| 1. | Above the sample, the electron wave can be approximated as a plane wave.
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| 2. | The contrast of a HRTEM image arises from the electron wave with itself.
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| 3. | Over a limited distance, the electron wave function will remain coherent.
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| 4. | When an electron wave passes through a sample in the TEM, complex interactions occur.
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| 5. | These images revealed interference between two electron waves on their way to the detector.
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| 6. | See the article on electromagnetic electron waves for more detail.
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| 7. | The electron waves vanish if the microscope is switched off.
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| 8. | Finding the Hartree� Fock one-electron wave functions is now equivalent to solving the eigenfunction equation:
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| 9. | With F-mixing, once a single electron wave function is calculated it is not used directly.
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| 10. | We have not yet discovered the general dynamic equation for the evolution of electron waves.
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