Global ETD Search

191	Polymeric beam-steering 1xN fiber-optic switch Jang, Chiou-hung 28 August 2008 (has links) Not available / text Optical communications Fiber optics
192	Wavelength-selective micro- and nano-photonic devices for wavelength division multiplexing networks Jiang, Wei 28 August 2008 (has links) Not available / text Wavelength division multiplexing Nanotechnology Photonics Fiber optics Optical communications
193	Development of Ultrafast Fiber Laser Sources Churin, Dmitriy January 2015 (has links) The development of high average and peak power ultrashort pulsed fiber lasers is important for many critical research, industrial, and defense applications. However, the performance of mode-locked fiber oscillators still lags behind that of solid-state counterparts such as Kerr-lens mode-locked Ti:sapphire lasers. Despite the drawbacks in cost, size and required maintenance, Ti:sapphire remains the workhorse of ultrafast science. One of the remaining challenges for fiber lasers to overcome is their limited set of accessible wavelengths. Unfortunately, readily available ytterbium, erbium and thulium fiber lasers can produce coherent radiation only near 1, 1.55 and 2μm, respectively. There remain a significant number of wavelength regions that fiber lasers cannot address. In this thesis, novel fiber lasers producing ultrashort pulses at wavelengths not currently accessible with established active rare-earth-doped fibers are investigated. Our main approach is to use various nonlinear optical effects to generate new laser wavelengths. First, a watt-level synchronously pumped Raman fiber oscillator generating tens of nanojoules femtosecond pulses is demonstrated. Stimulated Raman scattering in a passive fiber within an oscillator cavity allows formation of Raman pulses that are spectrally redshifted with respect to the pump pulses. World-record output pulse energy and conversion efficiency have been achieved with our femtosecond Raman fiber laser design. We have also demonstrated a high power, widely tunable all-fiber optical parametric oscillator (FOPO) based on four-wave mixing in a passive fiber. The FOPO is synchronously pumped with an Yb³⁺-doped mode-locked fiber laser working at ~1040nm. The FOPO produces ultrashort pulses tunable from 760 to 1560nm. Record pulse energy is generated at the output of the femtosecond FOPO. Depending on the configuration of the FOPO, the duration of produced pulses varies between 170fs and 3ps. This new laser source has similar performance to standard Ti:sa femtosecond lasers so it can potentially replace the latter in many applications. Ultrashort optical pulses in the mid-IR and long-IR range (2-20 μm) have many important applications in gas sensing, counter-measures, etc. The realization of the ultrashort pulses in the mid-IR and long-IR wavelengths requires the use of free-space nonlinear crystals. An efficient mid-IR source based on difference frequency generation (DFG) in an AgGaS₂ crystal using femtosecond erbium/thulium pump fiber laser has been proposed and demonstrated. The photon conversion efficiency of the pump wave (1.55μm) to idler wave (9.2μm) has been measured to be 16%, which is today a record for conversion of near-IR light radiation from fiber lasers to 9μm spectral range. Potentially the photon conversion efficiency can be increased up to 60% by using pump pulses having higher peak power. Finally, generation of supercontinuum (SC) light in the mid-IR spectral range is also demonstrated. It is well known that SC produced in standard optical fibers is limited to ~6μm by material absorption. The liquid core optical fiber platform has been proposed to address this matter. Several highly nonlinear liquids have minimal absorption in the mid-IR wavelength range, which potentially allows us to create broadband SC light in this spectral region. SC generation up to 2.4μm in an integrated hollow core optical fiber filled with CS₂ has been demonstrated. Further development of the liquid core optical fiber platform should allow generation of the SC covering wavelengths beyond 6μm. Laser physics Nonlinear optics Optical Sciences Fiber optics
194	Ανάλυση των εξελίξεων και των μελλοντικών προοπτικών με βάση τα ερευνητικά δεδομένα στη χρήση των δικτύων υψηλής τάσης για τηλεπικοινωνιακούς σκοπούς Κατσαούνης, Ιωάννης 03 March 2008 (has links) Αντικείμενο αυτής της διπλωματικής εργασίας είναι η ανάλυση των εξελίξεων και των μελλοντικών προοπτικών με βάση ερευνητικά δεδομένα στη χρήση των δικτύων υψηλής τάσης για τηλεπικοινωνιακούς σκοπούς. / Purpose of this paper is the analysis of the development and the future perspectives based on research information and papers on the use of high voltage network for telecommunication reasons. Υψηλή τάση Οπτικές ίνες 621.382 75 High voltage Fiber optics
195	Propagation and loss characteristics of cladded optical fibers Martucci, Joseph January 1973 (has links) No description available. Fiber optics Wave guides Glass fibers Laser communication systems
196	Chaotic communication with erbium-doped fiber ring lasers VanWiggeren, Gregory D. 05 1900 (has links) No description available. Telecommunication systems Chaotic behavior in systems Synchronization Lasers Fiber optics
197	Alignment tolerant, single-fiber, bi-directional link Wang, Shih-Cheng 05 1900 (has links) No description available. Tolerance (Engineering) Optical communications Fiber optics Light emitting diodes
198	Error detection capability and coding schemes for fiber optic communication Chih, Samuel C. M. 05 1900 (has links) No description available. Fiber optics Optical communications
199	Development of MMIC-based modules for RF/Optical subcarrier multiplexed communications Han, SangWoo 05 1900 (has links) No description available. Microwave integrated circuits Fiber optics Optical communications Multiplexing
200	Integrated optical tapped-delay-lines : design, analysis and implementation Bao, Yufei 08 1900 (has links) No description available. Fiber optics Optical wave guides Electric power distribution

Search results