TY - GEN
T1 - Quantitative phase noise in a two-color low coherence Digital Holographic Microscope
AU - Monemhaghdoust, Zahra
AU - Montfort, Frédéric
AU - Emery, Yves
AU - Depeursinge, Christian
AU - Moser, Christophe
PY - 2013
Y1 - 2013
N2 - In digital holographic microscopy (DHM), the long coherence length of laser light causes parasitic interferences due to multiple reflections in and by optical components in the optical path of the microscope and thus degrades the image quality. The parasitic effects are greatly reduced by using a short coherence length light. The main drawback of using a short coherence light source in an off-axis digital holographic microscope, is the reduction of the interference fringe contrast occurring in the field of view. Previously, we introduced a volume diffractive optical element (VDOE) placed in the reference arm of a DHM to correct the coherence plane tilt so as to obtain a high interference contrast throughout the field of view . Here, we experimentally quantify the spatial and temporal phase noise in the extracted phase image caused by non-homogeneities and scattering of the VDOE element itself. The results over five VDOEs show that the temporal phase noise is unchanged and a slight increase (up to 20%) is observed in the spatial phase noise. These results show that even with a low coherence source, a full field of view can be obtained with an off-axis DHM thanks to the VDOE without introducing significant additional phase noise.
AB - In digital holographic microscopy (DHM), the long coherence length of laser light causes parasitic interferences due to multiple reflections in and by optical components in the optical path of the microscope and thus degrades the image quality. The parasitic effects are greatly reduced by using a short coherence length light. The main drawback of using a short coherence light source in an off-axis digital holographic microscope, is the reduction of the interference fringe contrast occurring in the field of view. Previously, we introduced a volume diffractive optical element (VDOE) placed in the reference arm of a DHM to correct the coherence plane tilt so as to obtain a high interference contrast throughout the field of view . Here, we experimentally quantify the spatial and temporal phase noise in the extracted phase image caused by non-homogeneities and scattering of the VDOE element itself. The results over five VDOEs show that the temporal phase noise is unchanged and a slight increase (up to 20%) is observed in the spatial phase noise. These results show that even with a low coherence source, a full field of view can be obtained with an off-axis DHM thanks to the VDOE without introducing significant additional phase noise.
KW - Diffraction gratings
KW - Digital holographic microscopy
KW - Phase noise
UR - http://www.scopus.com/inward/record.url?scp=84878724845&partnerID=8YFLogxK
U2 - 10.1117/12.2002413
DO - 10.1117/12.2002413
M3 - Conference contribution
AN - SCOPUS:84878724845
SN - 9780819494139
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - Practical Holography XXVII
T2 - SPIE Practical Holography XXVII: Materials and Applications
Y2 - 3 February 2013 through 4 February 2013
ER -