Subject: Precision Optics II Grade: 10
... 5. Lens shape and lens function identification worksheet. [Why does curve matter?] 6. Dispersion demo & glass map interpretation assignment. [Why does composition matter?] 7. Lens Maker’s Equation worksheet and Excel spreadsheet. [Why does curve & composition matter?] 8. Ideal Ray Diagram reading an ...
... 5. Lens shape and lens function identification worksheet. [Why does curve matter?] 6. Dispersion demo & glass map interpretation assignment. [Why does composition matter?] 7. Lens Maker’s Equation worksheet and Excel spreadsheet. [Why does curve & composition matter?] 8. Ideal Ray Diagram reading an ...
Experimental investigation of the propagation properties of bloch
... Results: The longest propagation length is achieved when the multilayer is designed to have the dispersion curve positioned close to the middle of the photonics band gap. We measure a Bloch surface wave mode of propagation length 3.24 mm and of an effective refractive index contrast 0.15. Conclusion ...
... Results: The longest propagation length is achieved when the multilayer is designed to have the dispersion curve positioned close to the middle of the photonics band gap. We measure a Bloch surface wave mode of propagation length 3.24 mm and of an effective refractive index contrast 0.15. Conclusion ...
6.0 Mb - Todd Satogata
... § A single mirror produces a single reflection: that’s straightforward. § Multiple mirrors require you to trace multiple reflections. § Your brain thinks the light is going straight when it’s really reflecting, so you “see” an image of an object as though the light traveled in a straight line ...
... § A single mirror produces a single reflection: that’s straightforward. § Multiple mirrors require you to trace multiple reflections. § Your brain thinks the light is going straight when it’s really reflecting, so you “see” an image of an object as though the light traveled in a straight line ...
AWG Parameters Definition and Discussion Anis Rahman, Ph. D.
... The Maximum Integrated Crosstalk of a channel is the sum of the maximum crosstalk values from all other channels. This occurs when all signals independently align with the wavelengths and polarizations of maximum crosstalk. Maximum integrated crosstalk is most applicable to very narrow spectral sign ...
... The Maximum Integrated Crosstalk of a channel is the sum of the maximum crosstalk values from all other channels. This occurs when all signals independently align with the wavelengths and polarizations of maximum crosstalk. Maximum integrated crosstalk is most applicable to very narrow spectral sign ...
A New Type of Frequency Chain and Its Application to Fundamental
... frequency metrology. These examples are instructive, but it is important to note that experimentally we neither rely on a strictly periodic electric field nor on the assumption of a chirp free pulse train. The strict periodicity of the spectrum as stated in Eqn. 7 and the possibility to resolve singl ...
... frequency metrology. These examples are instructive, but it is important to note that experimentally we neither rely on a strictly periodic electric field nor on the assumption of a chirp free pulse train. The strict periodicity of the spectrum as stated in Eqn. 7 and the possibility to resolve singl ...
Versatile two-dimensional potentials for ultra
... of the theoretical difficulties with this system is that liquid helium is not dilute, and so making progress with microscopic theory is troublesome. In contrast, interactions in dilute Bosecondensed gases are weak, which enables accurate modeling of these quantum many-body systems, both with the mea ...
... of the theoretical difficulties with this system is that liquid helium is not dilute, and so making progress with microscopic theory is troublesome. In contrast, interactions in dilute Bosecondensed gases are weak, which enables accurate modeling of these quantum many-body systems, both with the mea ...
Quantitative force measurements with optical tweezers: The JPK
... on the size of the trapped object. One speaks of the ‘rayoptics’ regime when the object’s dimension d is much larger than the wavelength of the trapping light: d>>λ. In this case, diffraction effects can be neglected and the trapping forces of the light can be understood in terms of ray optics. The ...
... on the size of the trapped object. One speaks of the ‘rayoptics’ regime when the object’s dimension d is much larger than the wavelength of the trapping light: d>>λ. In this case, diffraction effects can be neglected and the trapping forces of the light can be understood in terms of ray optics. The ...
Interpretation of polarimetric radar data over Ronne Ice Shelf
... with a strength determined by the crystal orientation fabric [10]. Plane wave solutions of Maxwell’s equations show that only two directions are allowed for propagation, the extraordinary wave in the plane containing the optic axis and the ordinary wave in the plane perpendicular to it [10]. Ice is ...
... with a strength determined by the crystal orientation fabric [10]. Plane wave solutions of Maxwell’s equations show that only two directions are allowed for propagation, the extraordinary wave in the plane containing the optic axis and the ordinary wave in the plane perpendicular to it [10]. Ice is ...
Diffraction effects in optical interferometric displacement detection in nanoelectromechanical systems
... The NEMS devices used in these experiments were silicon doubly clamped beams. The devices were fabricated on a silicon-on-insulator wafer with a 219-nm-thick silicon device layer on top of a 396-nm-thick sacrificial oxide layer. Figure 1(a) shows a scanning electron micrograph of a completed family ...
... The NEMS devices used in these experiments were silicon doubly clamped beams. The devices were fabricated on a silicon-on-insulator wafer with a 219-nm-thick silicon device layer on top of a 396-nm-thick sacrificial oxide layer. Figure 1(a) shows a scanning electron micrograph of a completed family ...
On-chip gas detection in silicon optical microcavities
... Interaction of light with matter in a gaseous state is an important functionality for sensors as well as for addressing isolated atomic or molecular states for quantum optic applications [1]. The vast majority of room-temperature experiments involving light-matter interactions in integrated photonic ...
... Interaction of light with matter in a gaseous state is an important functionality for sensors as well as for addressing isolated atomic or molecular states for quantum optic applications [1]. The vast majority of room-temperature experiments involving light-matter interactions in integrated photonic ...
Transmission resonances of electromagnetic wave through metallic
... In order to characterize the field modes on the gratings, we replaced the receiving horn with small wire antennas. One was 10 mm long dipole antenna made by setting apart the inner and outer conductors of a section of coaxial, while the other was 5 mm long monopole made by stripping off the outer co ...
... In order to characterize the field modes on the gratings, we replaced the receiving horn with small wire antennas. One was 10 mm long dipole antenna made by setting apart the inner and outer conductors of a section of coaxial, while the other was 5 mm long monopole made by stripping off the outer co ...
Optical Parametric Processes with Femtosecond
... GVM: Group-Velocity Mismatch HHG: High-Harmonic Generation M‐L: Mode‐Locking NA: Numerical Aperture NOPA: Noncollinear Optical Parametric Amplifier OPA: Optical Parametric Amplification OPCPA: Optical Parametric Chirped Pulse Amplification OPG: Optical Parametric Generation OPO: Optical Parametric O ...
... GVM: Group-Velocity Mismatch HHG: High-Harmonic Generation M‐L: Mode‐Locking NA: Numerical Aperture NOPA: Noncollinear Optical Parametric Amplifier OPA: Optical Parametric Amplification OPCPA: Optical Parametric Chirped Pulse Amplification OPG: Optical Parametric Generation OPO: Optical Parametric O ...
