Lecture 2 - Center for Biomedical Optics and New Laser Systems

10.07.2015 Views
Breast cancer lymph nodeRobertMcLaughlinUniv. ofWesternAustralia

ρ [dimensionless]RobertMcLaughlinUniv. ofWesternAustralia

Page 2: Consider a cup of coffee with cream

Page 8 and 9: R ≈ e −µ a Ladd a drop ofabsor

Page 10 and 11: Measurement vs properties gridColle

Page 12 and 13: lack x = µ s ’ < 10µ ablue = co


Page 16 and 17: µ a = 0.1 cm -1

Page 18 and 19: µ a = 0.1 cm -1

Page 20 and 21: µ a = 0.1 cm -1

Page 22 and 23: Oblique R(r)Light is delivered at a


Page 26 and 27: CameraBeam of lightM total.std exam

Page 28 and 29: mua = 0.1mua = 0

Page 30 and 31: mua = 0.5mua = 0

Page 32 and 33: R std M total M total.std RM total

Page 34 and 35: Added absorber methodDetector sense

Page 36 and 37: Added absorber methodBeam of lightD



Page 42 and 43: 10.90.8blue = const µ s', red = co

Page 44 and 45: R total + added absorber10.90.80.70

Page 46 and 47: M = M tissueM std= S T tissueG tiss



Page 52: Reflectance-mode ConfocalMicroscopy

Page 55 and 56: Coherence gate of OCT provides a 45

Page 57 and 58: ρe −µz€~1/1000 thCMOCT

Page 59 and 60: R(z)€ρ = local reflectivity [-]

Page 61 and 62: T inT out= e −a(g)µ s z f 2Gag

Page 63 and 64: R = T inρT out= ρe −µz f= µ s

Page 65: Mietheory

Page 68 and 69: Consider a rCLSM or OCT image…

Page 70 and 71: Consider a rCLSM or OCT image…R(z

Page 75 and 76: perturbationnormal

Page 77 and 78: Osteogenesis Mouse imperfecta skino

Page 79 and 80: RickyWangIn vivo optical properties

Page 81: Smooth muscles cells cause the scat

Page 85: Tissue OpticsSteven L. Jacquesjacqu

Lecture 2 - Center for Biomedical Optics and New Laser Systems

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Lecture 2 - Center for Biomedical Optics and New Laser Systems Lecture 2 - Center for Biomedical Optics and New Laser Systems