Spatial phase coherence in femtosecond pulses provides a robust new foundation for coherent Raman spectroscopy, demonstrated via transverse signal distributions in rotational wave-packets that expose conventional measurement artifacts and enable thermometry.
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An experimental method is shown to test the Siegert relation and distinguish pseudothermal light from genuine thermal light.
citing papers explorer
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Spatial phase coherence in femtosecond coherent Raman scattering
Spatial phase coherence in femtosecond pulses provides a robust new foundation for coherent Raman spectroscopy, demonstrated via transverse signal distributions in rotational wave-packets that expose conventional measurement artifacts and enable thermometry.
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Distinguishing thermal and pseudothermal light by testing the Siegert relation
An experimental method is shown to test the Siegert relation and distinguish pseudothermal light from genuine thermal light.