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Synonyms were used for: system
Search without synonyms: keywords:(power system)
Used synonyms:
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$$^2{\rm{\vec H(}}\vec d,p{{\rm{)}}^3}{\rm{H}}$$ Reaction Calculations at 20–120 keV by the Four-Body Yakubovsky Equations with the Paris Potential
Springer Verlag | 1995|Keywords: Nucleon System, Tensor Analyze Power -
0.28 TW laser system at 1 kHz, Scaleable to 2 TW at 1 kHz
Springer Verlag | 1998|Keywords: Laser System, Power Amplifier -
1.1 Fundamentals of laser-induced processes
1 FundamentalsLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
1.1 Fundamentals of laser-induced processes
1 FundamentalsLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
1.1 Survey of laser systems
1 Survey of laser systemsSpringer Verlag | 2007|Keywords: laser system, alpha-DFB laser; applications; argon-ion laser; beam parameter product BPP; catastrophic optical damage (COD); CO2 laser; coherent coupling; coherent emission; collisions of second kind; conversion efficiency; cutting; design; diffraction pattern; diode-pumped solid-state laser; direct writing; directional selectivity; distributed feedback (DFB); Einstein coefficients; electro-optical filamentation; epitaxial structures; excimer laser; excitation rate; experiments; feedback; feedback resonator; frequency doubling; Fresnel number; gas laser; heat sink; helium-neon laser; higher harmonics; high-power diode laser (HPDL); incoherent superposition; interference filter; introduction; laser polishing; laser threshold; marking; master oscillator power amplifier (MOPA); micro-lens array; micro-machining; micro-step mirror; nonlinear amplification; optical mode; optical mode volume; packaging; performance; phase transition of the second kind; piezo-electric mirror; polishing; principles; regenerative amplification; relaxation oscillation; resonator design; self-absorption; short-pulse solid-state laser; single emitters; slab design; slitting; soldering; solid-state laser; spiking time; superradiance; survey; Talbot effect; technical implementation; thermal lensing; thermal load; transformation hardening; transmission rate; UV lithography; welding; Zeeman cell; Z-laser -
2.1 Surface treatment
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.2 Rapid prototyping
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.3 Thermal bending
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.4 Joining
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.5 Laser separating
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.6 Cutting: Modeling and data
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.7 Laser systems for materials processing
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2.8 Process monitoring and closed-loop control
2 Production engineeringLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
2D/3D Visualization Realization of Power Grid Operation Monitoring System Based on Big Data
Springer Verlag | 2023|Keywords: Power Grid Operation, Monitoring System -
2D and 3D Flexible Laser System for Precision Cutting, Welding and Drilling Applications
Springer Verlag | 2022|Keywords: Laser system, Peak power, Average power -
3.1 Gas laser systems
3 Gas lasersSpringer Verlag | 2007|Keywords: gas laser system, ambipolar diffusion; ambipolar diffusion coefficient; arc discharge; Boltzmann equation; boundary layer; breakdown voltage; characteristic frequency; charged-particle density; chemical excitation; chemical oxygen-iodine laser (COIL); collision integral; DC discharge; discharge instability; discharge type; Doppler broadening; Einstein coefficient; electromagnetic field; electron attachment rate coefficient; electron avalanche; electron density; electron distribution function; electron drift velocity; electron energy transfer frequency; electron mobility; electron momentum transfer frequency; electron temperature; electron-beam excitation; electrophoresis; excitation frequency; excitation mechanism; filamentation; galvanic coupling; gas discharge; gas discharge excitation; gas-dynamic excitation; glow discharge; high-frequency glow discharge; high-pressure glow discharge; homogeneous line-broadening; introduction; ionization frequency; ionization rate coefficient; line broadening; Maxwell distribution; Maxwell equations; microwave discharge; mode density; Monte-Carlo particle simulation; natural line broadening; neutral gas; Penning ionization; plasma dielectric constant; plasma frequency; pressure broadening; pump power density; quantum efficiency; rate coefficient; reduced field strength; rotational excitation; secondary process; similarity laws; space-charge field; spontaneous emission; Stark broadening; stimulated emission; TEA discharge; thermal instability; threshold condition; threshold pump power density; vibrational excitation -
3.1 Lasers in biology and medicine
3 Life science, biological and chemical processingLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
3.2 Laser chemical processing
3 Life science, biological and chemical processingLandolt-Börnstein / Springer Materials | 2004|Keywords: high-power laser system, optical system -
3.6 Gasdynamical lasers, chemical lasers
3 Gas lasersSpringer Verlag | 2007|Keywords: analytical approximation; CO laser; concluding remarks; confocal resonator; conventional combustion-driven GDL; detonation of solid explosives; downstream mixing GDL; downstream mixing laser; electrical discharge; electrical discharge excited gasdynamic CO2 laser; electrically excited fast-flow CO laser; energy requirements; experimental investigation; fast-flow electric discharge laser (EDL); fast-flow high-power CO2 laser; fuel; gasdynamic CO laser; gasdynamic CO2 laser; gasdynamic flow equation; gasdynamic process; GDL; historical background; introduction; LEDA laser device; microwave discharge; miscellaneous; near-field intensity distribution; nonequilibrium supersonic flow; numerical modeling; optical cavity design; population density; population inversion; power extraction; pulsed laser system; rate equations; reaction kinetics; rotational level; rotational-vibrational transition; simulation; small-signal gain; supersonic expansion flow; translational-vibrational (T-V) process; unstable cavity; vibrational kinetics; vibrational rate equations; vibrational relaxation; vibrational state; vibrational temperature; vibrational-vibrational (V-V) transition, arc-driven; chain-reaction excitation; chain-reaction laser; chemical flame laser; chemical laser system; chemical reaction enthalpy; CO laser; COIL (chemical oxygen iodine laser) technology; combustion-driven; concluding remarks; continuous-wave CO laser; continuous-wave DF laser; continuous-wave DF-CO2 transfer chemical laser; continuous-wave HF laser; continuous-wave iodine laser (COIL); continuous-wave laser excitation; detonation wave; DF laser; diffusion chemical laser; diffusion type of chemical cw DF laser; diffusion type of chemical cw HF laser; discharge flow laser; discharge-initiated pulsed DF laser; discharge-initiated pulsed HF laser; discussion; emission spectrum; energy transfer; evaluation; explosion limit; flash-photolytically initiated reaction; fundamental processes; HBr laser; HCl laser; HF laser; HF+-molecule; historical background; hydrogen-chlorine explosion; introduction; iodine laser; laser efficiency; longitudinal gas-flow; magnetic dipole transition; Marx generator; miscellaneous; NO laser; numerical analysis; operation principles; optical ignition; photodissociation; photoionization; photolytical process; photolytically initiated iodine laser (PIL); pulsed CO laser; pulsed DF laser; pulsed HBr laser; pulsed HCl laser; pulsed HF laser; pulsed NO laser; pulsed system; pulsed transfer chemical (TCL) CO2 laser; pulsed transfer chemical (TCL) laser; repetitively pulsed DF laser; repetitively pulsed HF laser; rotational temperature; shock tube; specific reactions; subsonic continuous-wave DF-CO2 transfer chemical laser; supersonic chemical flow; supersonic cw DF-CO2 transfer chemical laser; transfer chemical laser (TCL); translational temperature; transverse excitation; transversely excited atmospheric pressure (TEA) CO2 laser; vibrational relaxation time; vibrational temperature; vibrationally excited hydrogen halides; vibrationally excited nitrogen; vibrational-rotational state -
3D CAD/CAM System
Springer Verlag | 2022|Keywords: CAM system, Power Electronics, Electrical Machines and Networks
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