SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3015789504> ?p ?o ?g. }

Showing items 1 to 100 of ±185 with 100 items per page.

W3015789504 abstract "The use of compact blue laser light source is showing a remarkable technological improvement in certain applications, which include devices such as optical data storage, laser printers, and colour displays, to mention a few. Therefore, these applications are requiring more reliable laser sources. Factors such as compactness, robustness, long-term stability, suitability for large-scale integration and possibility of mass-production can be decisive for the choice of the kind of blue laser source as part of a practical tool. Planar lightwave circuits provide practical solutions for such optical devices. A combination of the Flame Hydrolysis Deposition (FHD) and Reactive Ion Etching (RIE) is by now a mature technology, and it has produced planar lightwave circuits for telecommunications applications. In using these analogous technologies, the aim of this work is to study the feasibility of fabrication of compact blue upconversion laser sources. Before proceeding to the study of the blue upconversion process, the research concentrates on the optimisation of the glass host, investigating an alternative approach to reduce the ion-ion interaction in a heavily rare earth doped matrix using sodium ions. The characteristics of the waveguides employed as cavity lasers for the devices fabricated in this planar form also demand accurate numerical modelling for optimisation. Thus, a numerical procedure is developed to complete this general optimisation. The laboratory facilities and availability of experimental data were decisive in the choice of the erbium ion as active material for this first part of the research. The blue upconversion process investigation is initiated by considering two rare earth doping composition for the SiO2-P2O5 glass: a single thulium and a thulium doped sensitised with ytterbium ions. Blue upconversion is examined in both glasses considering future diode lasers pump wavelength. The wavelengths at 800 nm and 980 nm demonstrated to be the potential choices for pumping the Tm/Yb glass. The inclusion of ytterbium ions in the glass composition enhanced the blue upconversion process using the pump wavelength at 800 nm however the population inversion for laser threshold was not predicted by the modelling. The pump wavelength at 980 nm is applied to the numerical model to study the feasibility of the fabrication of this blue upconversion laser. The preliminary results, which do not correspond to the optimised laser structure design, predicted performance comparable to the results of the employment of optical fibre based devices which have been reported so far." @default.
W3015789504 created "2020-04-17" @default.
W3015789504 creator A5039324926 @default.
W3015789504 date "1999-01-01" @default.
W3015789504 modified "2023-09-27" @default.
W3015789504 title "A study on the feasibility of a silica-on-silicon blue upconversion laser fabricated by flame hydrolysis deposition" @default.
W3015789504 cites W1507762178 @default.
W3015789504 cites W1524157194 @default.
W3015789504 cites W1649488114 @default.
W3015789504 cites W1966119844 @default.
W3015789504 cites W1971388791 @default.
W3015789504 cites W1973146863 @default.
W3015789504 cites W1974358695 @default.
W3015789504 cites W1974379427 @default.
W3015789504 cites W1974846503 @default.
W3015789504 cites W1976570433 @default.
W3015789504 cites W1978690715 @default.
W3015789504 cites W1979655791 @default.
W3015789504 cites W1980706117 @default.
W3015789504 cites W1981630406 @default.
W3015789504 cites W1981863855 @default.
W3015789504 cites W1984819282 @default.
W3015789504 cites W1984880588 @default.
W3015789504 cites W1986014262 @default.
W3015789504 cites W1986672015 @default.
W3015789504 cites W1987508802 @default.
W3015789504 cites W1987729828 @default.
W3015789504 cites W1987921537 @default.
W3015789504 cites W1989127922 @default.
W3015789504 cites W1989885399 @default.
W3015789504 cites W1992116834 @default.
W3015789504 cites W1994614283 @default.
W3015789504 cites W1995929046 @default.
W3015789504 cites W2000268103 @default.
W3015789504 cites W2000277812 @default.
W3015789504 cites W2003060993 @default.
W3015789504 cites W2010318478 @default.
W3015789504 cites W2013773294 @default.
W3015789504 cites W2018928139 @default.
W3015789504 cites W2020879690 @default.
W3015789504 cites W2021245286 @default.
W3015789504 cites W2022691949 @default.
W3015789504 cites W2022876341 @default.
W3015789504 cites W2023762924 @default.
W3015789504 cites W2026562472 @default.
W3015789504 cites W2026867111 @default.
W3015789504 cites W2027504315 @default.
W3015789504 cites W2028009336 @default.
W3015789504 cites W2028562106 @default.
W3015789504 cites W2031130831 @default.
W3015789504 cites W2031875832 @default.
W3015789504 cites W2035918246 @default.
W3015789504 cites W2036524386 @default.
W3015789504 cites W2037778643 @default.
W3015789504 cites W2038605207 @default.
W3015789504 cites W2040401842 @default.
W3015789504 cites W2041092159 @default.
W3015789504 cites W2042946784 @default.
W3015789504 cites W2044422487 @default.
W3015789504 cites W2044907048 @default.
W3015789504 cites W2045487225 @default.
W3015789504 cites W2051152821 @default.
W3015789504 cites W2051185416 @default.
W3015789504 cites W2052542517 @default.
W3015789504 cites W2052669951 @default.
W3015789504 cites W2054032314 @default.
W3015789504 cites W2056106682 @default.
W3015789504 cites W2058410176 @default.
W3015789504 cites W2059340298 @default.
W3015789504 cites W2060865463 @default.
W3015789504 cites W2061357071 @default.
W3015789504 cites W2061483421 @default.
W3015789504 cites W2063886850 @default.
W3015789504 cites W2068036007 @default.
W3015789504 cites W2069433337 @default.
W3015789504 cites W2070483511 @default.
W3015789504 cites W2070924054 @default.
W3015789504 cites W2072497489 @default.
W3015789504 cites W2075273523 @default.
W3015789504 cites W2077557745 @default.
W3015789504 cites W2078538417 @default.
W3015789504 cites W2079217202 @default.
W3015789504 cites W2080462198 @default.
W3015789504 cites W2080855761 @default.
W3015789504 cites W2081864642 @default.
W3015789504 cites W2084938872 @default.
W3015789504 cites W2085093024 @default.
W3015789504 cites W2087252183 @default.
W3015789504 cites W2088458350 @default.
W3015789504 cites W2090081563 @default.
W3015789504 cites W2091063438 @default.
W3015789504 cites W2094290155 @default.
W3015789504 cites W2094654251 @default.
W3015789504 cites W2096803844 @default.
W3015789504 cites W2104831116 @default.
W3015789504 cites W2105604164 @default.
W3015789504 cites W2110959892 @default.
W3015789504 cites W2115195159 @default.
W3015789504 cites W2121158293 @default.
W3015789504 cites W2127143227 @default.