22 June 2016 Special Section Guest Editorial:Antonello De Martino (1954–2014): in memoriam
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J. of Biomedical Optics, 21(7), 071101 (2016). doi:10.1117/1.JBO.21.7.071101
Abstract
This PDF file contains the editorial “Special Section Guest Editorial:Antonello De Martino (1954–2014): in memoriam” for JBO Vol. 21 Issue 07
Novikova, Drévillon, Schwartz, Validire, Nazac, Ossikovski, Garcia-Caurel, Laude-Boulesteix, Anastasiadou, Losurdo, Hinderl, Ibrahim, Antonelli, Pierangelo, Deby, Roussel, Manhas, Vizet, Pagnoux, Bancelin, Schanne-Klein, Rehbinder, Haddad, Moreau, Vanel, Cabarrocas, Tuchin, and Jacques: Special Section Guest Editorial: Antonello De Martino (1954–2014): in memoriam

The head of the polarimetric group of the Laboratory of Physics of Interfaces and Thin Films (LPICM) at École polytechnique, France, Dr. Antonello De Martino, passed away on August 23, 2014, after 35 years of a brilliant research career (see Fig. 1). He was an alumni of the École polytechnique French engineering school, and a senior scientist 1st class at the National Centre of Scientific Research (CNRS). He was also a professor in the Physics Department of École polytechnique. Antonello, as he was known to his colleagues and friends, started his career at Quantum Optics Laboratory in 1980, working on the generation of far-infrared (IR) radiation, IR multiphoton absorption, and the interaction of gas clusters with surfaces. In 2000 he joined the group of polarimetric optical instrumentation of LPICM. Antonello, who had acquired great expertise in using polarized light for detection of resonance-enhanced multiphoton ionization, was able to see the potential of Mueller matrix polarimetry experiments for a number of practical uses. Pushing the limits, he led the development of new polarimetric instruments and applications.

Fig. 1

Dr. Antonello De Martino.

JBO_21_7_071101_f001.png

In particular, Antonello contributed to the development of the spectroscopic Mueller matrix polarimeter, suggesting a new instrumental design based on the use of liquid crystals.1 Thereafter, he expanded this Mueller matrix polarimetric technique into the imaging field. Apart from important contributions to the instrument development, Antonello pioneered the applications of Mueller matrix polarimetry in several diverse areas. The ability of Mueller matrix polarimetry to provide all polarimetric properties of a sample, such as depolarization, retardance, and diattenuation, has opened new perspectives in the biomedical field, in particular for the early diagnosis of cancer.2 For his preclinical studies on the application of a multiwavelength Mueller matrix imaging polarimeter for the optical biopsy of cervical cancer,3 Antonello was awarded the Prize for Innovation of École Polytechnique in 2012. His seminal ideas were at the core of the research project devoted to the development of an endoscopic Mueller matrix polarimeter for in vivo biomedical applications.4

Antonello was the author of many scientific papers, several book chapters, and patents. Also an inspired educator, he taught for many years in the Physics Department of École polytechnique. In particular, he was responsible for the activities of the Center of Experimental Physics for almost ten years. He succeeded to transfer his enthusiasm and passion for science to the students by confronting them with new experimental facts and placing them at the frontiers of knowledge of modern physics.

All those who had the privilege to know, work, and interact with Antonello feel the pain of losing a colleague and a great friend who will be remembered as an outstanding researcher and passionate teacher. He showed admirable courage in facing his illness, against which he fought for many years.

References

1. 

A. De Martino et al., “Optimized Mueller polarimeter with liquid crystals,” Opt. Lett. 28(8), 616–618 (2003).OPLEDP0146-9592http://dx.doi.org/10.1364/OL.28.000616Google Scholar

2. 

T. Novikova et al., “Polarimetric imaging for cancer diagnosis and staging,” Opt. Photonics News, 23(10), 26–32 (October 2012).http://dx.doi.org/10.1364/OPN.23.10.000026Google Scholar

3. 

A. Pierangelo et al., “Polarimetric imaging of uterine cervix: a case study,” Opt. Express 21(12), 14120–14130 (2013).OPEXFF1094-4087http://dx.doi.org/10.1364/OE.21.014120Google Scholar

4. 

S. Manhas et al., “Demonstration of full 4×4 Mueller polarimetry through an optical fiber for endoscopic applications,” Opt. Express 23(3), 3047–3054 (2015).OPEXFF1094-4087http://dx.doi.org/10.1364/OE.23.003047Google Scholar

Tatiana Novikova, Bernard Drévillon, Laurent Schwartz, Pierre Validire, André Nazac, Razvigor Ossikovski, Enric Garcia-Caurel, Blandine Laude-Boulesteix, Makrina Anastasiadou, Maria Losurdo, Kurt Hinderl, Bicher Haj Ibrahim, Maria Rosaria Antonelli, Angelo Pierangelo, Stanislas Deby, Stéphane Roussel, Sandeep Manhas, Jérémy Vizet, Dominique Pagnoux, Stéphane Bancelin, Marie-Claire Schanne-Klein, Jean Rehbinder, Huda Haddad, François Moreau, Jean-Charles Vanel, Pere Roca i Cabarrocas, Valery Tuchin, Steven Jacques, "Special Section Guest Editorial:Antonello De Martino (1954–2014): in memoriam," Journal of Biomedical Optics 21(7), 071101 (22 June 2016). http://dx.doi.org/10.1117/1.JBO.21.7.071101
Submission: Received ; Accepted
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KEYWORDS
Polarimetry

Physics

Biomedical optics

Cervical cancer

Infrared radiation

Quantum optics

Scientific research

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