Chemical laser utilizing electronic transitions in IF molecules

An improved data transmission scheme that can be used for any chosen transmitting direction in free space is introduced. This scheme is obtained by analyzing the analytic form of the diffracted spectrum of a coherent broad band Gaussian spectrum incident on an adjustable tilting circular mirror. It is found that the transmitting angle and tilting angle are conjugate. The advantages of this method are that the transmission direction can be selected arbitrarily in advance and that it is easy to implement compared with other previous schemes which modulate some properties of the light source. #

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Possible expansion of the spectral emission range of electronic-transition chemical lasers

Басов¹,

Gavrikov²,

Pozdneev³

et al. 1987

Sov. J. Quantum Electron.

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Experimental investigations on superelastic shape-memory alloys (SMAs) show a dependence of the stress-strain relationship on the loading-unloading rate. This feature is of particular importance when utilizing SMA materials for seismic applications, since the loading rate may affect the structural response.Motivated by this observation and by the fact that there exist relatively few studies on the material modelling of SMAs in earthquake engineering, the present work addresses a uniaxial constitutive equation able to describe the rate-dependent behaviour of superelastic SMAs.The formulation of the model is based on two scalar internal variables, the static martensite fraction and the dynamic martensite fraction, for which three different types of evolutionary equations in rate form are proposed. Moreover, the model takes into account the different elastic properties between austenite and martensite. Finally, after discussing two possible approaches for the solution of the corresponding time-discrete framework, the ability of the model to simulate experimental data obtained from uniaxial tests performed on SMA wires and bars at frequency levels of excitation typical of earthquake engineering is assessed. reversible micromechanical phase transitions by changing the crystallographic structure from an austenitic phase to a martensitic phase. This capacity results in two major features at the macroscopic level, which are the superelastic effect and the shape-memory effect [9].Due to these unique characteristics, SMAs lend themselves to innovative applications in many scientific fields,

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Chemical laser utilizing electronic transitions in IF molecules

Cited by 4 publications

References 6 publications

Exchange chemical lasers for the visible and near-infrared ranges utilizing electronic transitions in halogens and interhalogen compounds

Exchange chemical lasers for the visible and near-infrared ranges utilizing electronic transitions in halogens and interhalogen compounds

New type of chemical laser utilizing electronic transitions with a chain excitation mechanism

Possible expansion of the spectral emission range of electronic-transition chemical lasers

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