Preface
1 From Optical MEMS to Micromechanical Photonics
1.1 Micromechanical Photonics-An Emerging Technology
1.2 Fabrication Methods
1.2.1 Bulk and Surface Micromachining
1.2.2 Three-Dimensional Micromachining
1.2.3 Monolithic Integration-Micromachining for and LD
1.3 Miniaturized Systems with Microoptics and Micromechanics
1.3.1 Important Aspects for Miniaturization
1.3.2 Light Processing by Micromechanics
1.3.3 Kinetic Energy of Light
1.3.4 Micromechanical Control by Optical Pressure
1.4 Integrated Systems with LDs and Micromechanics
1.4.1 Tunable LD
1.4.2 Resonant Sensor
1.4.3 Optical Encoder
1.4.4 Integrated Flying Optical Head
1.4.5 Blood Flow Sensor
1.5 Future Outlook of Optical MEMS and Micromechanical Photonics
2 Extremely Short-External-Cavity Laser Diode
2.1 Background
2.2 Theoretical Analysis
2.2.1 Lasing Condition of a Solitary LD
2.2.2 Effective Reflectivity
2.2.3 Light Output
2.2.4 Wavelength
2.3 Experimental Analysis
2.3.1 Experimental Setup
2.3.2 Light Output
2.3.3 Wavelength and Spectrum Characteristics
2.4 Applications
2.4.1 Tunable LD
……
2.5 Designs for Related Problems of an ESEC LD
3 Optical Tweezers
3.1 Background
3.2 Theoretical Analysis
3.3 Experimental Measurement and COmparison
3.4 Applications of Optical Tweezers
4 Optical Rotor
4.1 Background
4.2 Theoretical Analysis Ⅰ-Optical Torque
4.3 THeoretical Analysis Ⅱ-Fluid Dynamics
4.4 Fabrication
4.5 Evaluation
4.6 Mixer Application for U-TAS
5 Near Field
5.1 Background
5.2 Theoretical Analysis
5.3 Experimental Analysis
5.4 Future Applications
6 Answers Hints and Solutions
References
Index
鄂公网安备 42010302001612号 