Wave Basics Reading/Study Guide
... . Then the molecules smash together and these are called compressions. Take a woodwind instrument, such as a clarinet. When you blow into a clarinet, a thin reed begins to vibrate. The vibrating reed first pushes against air molecules (the medium), then pulls away. This results in an area wher ...
... . Then the molecules smash together and these are called compressions. Take a woodwind instrument, such as a clarinet. When you blow into a clarinet, a thin reed begins to vibrate. The vibrating reed first pushes against air molecules (the medium), then pulls away. This results in an area wher ...
IEEE J. Quant. Electron. 24, 431 - Department of Physics
... quent modifications [2], was the only available source of the extracted ultraviolet beam. Intracavity frequency douoptical pulses less than 100 fs in duration. Recently sev- bling has been applied previously to synchronously modeeral investigators [3]-[8] have developed new femtosec- locked picoseco ...
... quent modifications [2], was the only available source of the extracted ultraviolet beam. Intracavity frequency douoptical pulses less than 100 fs in duration. Recently sev- bling has been applied previously to synchronously modeeral investigators [3]-[8] have developed new femtosec- locked picoseco ...
Greg A. Smith - curriculum vitae
... Smith, and Russell Chipman, submitted to International Optical Design Conference, Polarization in Optical Design (2010). "Polarization Imaging Light Scattering Facility", Hannah Noble, Greg A. Smith, Wai Sze Lam, Steve McClain, Russell Chipman, Proceedings of the SPIE: Polarization Science and Remot ...
... Smith, and Russell Chipman, submitted to International Optical Design Conference, Polarization in Optical Design (2010). "Polarization Imaging Light Scattering Facility", Hannah Noble, Greg A. Smith, Wai Sze Lam, Steve McClain, Russell Chipman, Proceedings of the SPIE: Polarization Science and Remot ...
Technical Article
... contaminate SD-OCT images. The swept laser source (Micron Optics, Inc.) featured an average output power of ~2mW, a sweep time of 3.5ms, center wavelength λo=1308nm, and sweep bandwidth ∆λ=87nm (Fig. 1(c)). The detector photocurrents were sampled using a 12bit A/D converter at fs=62 KHz, giving M=21 ...
... contaminate SD-OCT images. The swept laser source (Micron Optics, Inc.) featured an average output power of ~2mW, a sweep time of 3.5ms, center wavelength λo=1308nm, and sweep bandwidth ∆λ=87nm (Fig. 1(c)). The detector photocurrents were sampled using a 12bit A/D converter at fs=62 KHz, giving M=21 ...
Fig. 10-1: Transmission windows
... • The spacing between two adjacent slits is called the pitch • Grating play an important role in: – Wavelength filtering – Dispersion compensation – EDFA Gain flattening and many more areas ...
... • The spacing between two adjacent slits is called the pitch • Grating play an important role in: – Wavelength filtering – Dispersion compensation – EDFA Gain flattening and many more areas ...
High speed hybrid silicon evanescent Mach
... (ER), 30 nm optical bandwidth, and over 16 GHz modulation bandwidth. Another new approach is to use carrier depletion inside offset multiple quantum wells (MQW) in a hybrid silicon evanescent MZM. This MZM have less wavelength sensitivity and larger optical bandwidth compared to an EAM. Most import ...
... (ER), 30 nm optical bandwidth, and over 16 GHz modulation bandwidth. Another new approach is to use carrier depletion inside offset multiple quantum wells (MQW) in a hybrid silicon evanescent MZM. This MZM have less wavelength sensitivity and larger optical bandwidth compared to an EAM. Most import ...