@phdthesis{oai:sucra.repo.nii.ac.jp:00010368,
 author = {LIYANAARACHCHI, KANKANAMGE THANUJA SRIMAL},
 month = {},
 note = {xii, 114 p., ACKNOWLEDGEMENTS ........................................................................................ II
TABLE OF CONTENT ............................................................................................. IV
TABLE OF FIGURES ............................................................................................... VII
CHAPTER 1 ................................................................................................................... 1
1. General Introduction ...................................................................................... 1
1.1. Introduction .................................................................................................. 1
References .......................................................................................................... 11
CHAPTER 2 ................................................................................................................. 17
2. Optical Coherence Tomography (OCT) ..................................................... 17
2.1. Introduction to interferometry ................................................................ 17
2.1.1. Wavefront dividing Interferometers ................................................ 19
2.1.2. Amplitude dividing Interferometers ............................................... 21
2.2. Optical coherence tomography (OCT) ................................................... 23
2.2.1. Introduction ......................................................................................... 23
2.2.2. Time domain OCT .............................................................................. 24
2.2.3. Spectral domain OCT ......................................................................... 25
2.2.3. Point spread function (PSF) ............................................................... 28
2.2. Mathematical treatments in OCT ............................................................ 29
2.2.1. General treatment ............................................................................... 29
2.2.2. Treatment for time domain low coherence interferometry .......... 36
2.2.3. Treatment for Fourier domain low coherence interferometry ..... 38
2.2.4. Lateral resolution ................................................................................ 42
2.3. Speckle phenomena ................................................................................... 43
2.3.1. Light interaction with biological tissue ........................................... 43
2.3.2. Composition and structure of biological tissue .............................. 47
2.3.3. Optical properties of biological tissue.............................................. 49
2.3.4. Laser Speckles ...................................................................................... 52
2.3.5. Biospeckles ........................................................................................... 55
2.3.6. Properties of biospeckles.................................................................... 56
Reference ............................................................................................................ 60
CHAPTER 3 ................................................................................................................. 63
3. Application of developed fOCT biospeckle signal analysis to monitor
O3 stress on plants ................................................................................................ 63
3.1. Optical System and Method ..................................................................... 64
3.1.1. Optical System ..................................................................................... 64
3.1.2. Plant and ozone exposure system .................................................... 68
3.1.3. Timing protocol and data acquisition .............................................. 70
3.1.4. Data analysis ........................................................................................ 72
3.2. Results and discussion .............................................................................. 76
3.2.1. Results and discussion of first approach ......................................... 76
3.2.2. Results and discussion of second approach .................................... 82
3.3. Summary ..................................................................................................... 86
References .......................................................................................................... 88
CHAPTER 4 ................................................................................................................. 90
4. Application of developed fOCT biospeckle signal analysis to monitor
water stress on plants .......................................................................................... 90
4.1. Optical System and Method ..................................................................... 91
4.1.1. Optical System ..................................................................................... 91
4.1.1. Gas exchange meter ............................................................................ 91
4.1.2. Plant materials ..................................................................................... 91
4.1.1. Timing protocol and data acquisition .............................................. 92
4.1.1. Data analysis ........................................................................................ 93
4.2. Results and discussion .............................................................................. 94
4.3. Summary ................................................................................................... 106
CHAPTER 5 ............................................................................................................... 107
5. Background, Conclusion and Future works ........................................... 107
5.1 Conclusion ................................................................................................. 110
5.2 Future studies ............................................................................................ 112
References ........................................................................................................ 113, 主指導教員 : 門野博史, text, application/pdf},
 school = {埼玉大学},
 title = {Development of functional optical coherence tomography (fOCT) for monitoring environmental effects on plants},
 year = {2015},
 yomi = {リヤナアーラチ, カンカーナムゲ タヌジャ スリマール}
}