Optical properties of photonic crystals - New Jersey Institute of ...

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TABLE OF CONTENTS (Continued) Chapter Page 6 RESULTS AND DISCUSSION 53 6.1 Background 53 6.2 The Absorption Coefficient 54 6.3 Effects on the Transmittance of Photonic Crystals 55 6.4 Results of Simulation 57 6.5 Effects of layers on the Photonic Crystal 59 6.6 Effects within each layer of the Photonic Crystal 61 6.7 Experimental Data of Photonic Crystals 63 6.8 Comparisons between Experimental, Simulated and Sandia Data 64 6.9 Reflectance and Emittance of the Photonic Crystal 66 6.10 The Flip and Angle Case 69 7 CONCLUSIONS AND RECOMMENDATIONS 71 7.1 Conclusions 71 7.2 Recommendations 72 APPENDIX Al 73 APPENDIX A2 78 BIBLIOGRAPHY 94 ix
LIST OF TABLES Table Page 1 Table 1 Source Temperature 65 2 Table 2 400 °C 65 3 Table 3 560 °C 65 4 Table 4 600 °C 66
Page 1 and 2: Copyright Warning & Restrictions Th
Page 3 and 4: ABSTRACT BAND -GAP CHARACTERISTICS
Page 6 and 7: APPROVAL PAGE OPTICAL PROPERTIES OF
Page 8 and 9: This Thesis is dedicated to my fami
Page 10 and 11: TABLE OF CONTENTS Chapter Page 1 IN
Page 14 and 15: LIST OF FIGURES Figure Page 1.1 Str
Page 16 and 17: LIST OF FIGURES (Continued) Figure
Page 18 and 19: 2 The friction between the photonic
Page 20 and 21: 4 progress towards all-optical inte
Page 22 and 23: As can be seen in Figure 1.2, with
Page 24 and 25: 8 1.1.2 Two Dimensional Photonic Cr
Page 26 and 27: 10 future. They may provide a novel
Page 28 and 29: CHAPTER 2 BACKGROUND AND SIGNIFICAN
Page 30 and 31: 14 transfer and computing. Applicat
Page 32 and 33: 16 Chigrin and Lavrinenko in collab
Page 34 and 35: 18 component of the wave vector rem
Page 36 and 37: 20 2.2.1 Transfer Matrix Method The
Page 38 and 39: Figure 2-3 Structure of a 2D photon
Page 40 and 41: 24 enhancing the efficiency of lase
Page 42 and 43: 26 Figure 2-6 A perfect waveguide i
Page 44 and 45: CHAPTER 3 FUNDAMENTALS OF OPTICAL P
Page 46 and 47: 30 the square of its amplitude--i.e
Page 48 and 49: 32 3.2 Control of Properties of Mat
Page 50 and 51: 34 Figure 3.3 Spontaneous-emission
Page 52 and 53: 36 current it generated. But the fi
Page 54 and 55: 38 be used in a solar cell, generat
Page 56 and 57: 40 4.1.3 Spectral Range The spectra
Page 58 and 59: 42 beyond the scope of MultiRad. Th
Page 60 and 61: 44 c. It considers only Silicon as
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Figure 5.1 Schematic of bench top e
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48 radiative properties of interest
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50 The final structure of the 3D cr
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52 The wafers are then planarized b
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54 Fig 6.2 Block diagram showing di
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56 decreases to a minimum in a cert
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58 only be carried in one dimension
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Figure 6.9 Simulated transmission t
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62 Fig 6.10 Transmission spectra fo
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64 Figure 6.11(b) Transmission spec
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66 As can be seen from the above ta
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Fig 6.14 Simulated reflectance spec
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Fig 6.16 Simulated transmittance sp
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72 7.2 Recommendations Much of the
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1.4 54.9 58.3 44.6 64.1 1.5 62.4 70
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11.2 60.3 64 53.8 48.2 11.3 59.7 62
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APPENDIX A2 RAW DATA This appendix
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APPENDIX A2 (CONTINUED) 80 0.232 5.
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APPENDIX A2 (CONTINUED) 8Z 0.221 2.
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BIBLIOGRAPHY [1] E. Yablonovitch, "
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96 [25] G. E. Jellison, F. A. Modin
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