We describe a monolithic interferometer for spatial coherence measurements of both classical and quantum light sources. The design enables measurements on both a PDC-based quantum source and a classical thermal source, using two identical calcite crystals to control beam alignment via birefringence. The monolithic structure ensures inherent stability. Spatial coherence is measured through temporal interferograms and spectral analysis, with both methods showing close agreement with theoretical predictions. The system is robust and performs reliably for both quantum and classical light. Its design enables automated, rapid coherence measurements across different source types.
Measuring spatial coherence of quantum and classical light with an ultrastable monolithic interferometer / E. Suerra, M. Siano, B. Paroli, S. Altilia, M.A.C. Potenza, M.G.A. Paris, S. Cialdi. - In: JOURNAL OF OPTICS. - ISSN 2040-8978. - 28:1(2026 Jan), pp. 015602.1-015602.10. [10.1088/2040-8986/ae2935]
Measuring spatial coherence of quantum and classical light with an ultrastable monolithic interferometer
E. Suerra
Primo
;M. Siano;B. Paroli;S. Altilia;M.G.A. Paris;S. CialdiUltimo
2026
Abstract
We describe a monolithic interferometer for spatial coherence measurements of both classical and quantum light sources. The design enables measurements on both a PDC-based quantum source and a classical thermal source, using two identical calcite crystals to control beam alignment via birefringence. The monolithic structure ensures inherent stability. Spatial coherence is measured through temporal interferograms and spectral analysis, with both methods showing close agreement with theoretical predictions. The system is robust and performs reliably for both quantum and classical light. Its design enables automated, rapid coherence measurements across different source types.
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