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1.3-μm InGaAsP distributed feedback laser (1986)

Dutta, N. K. ; Napholtz, S. G. ; Cella, T. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 59 (1986), S. 1811-1814

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The fabrication and performance characteristics of 1.3-μm InGaAsP distributed feedback (DFB) double-channel planar buried heterostructure (DCPBH) laser are reported. The lasers utilize a second-order grating with a periodicity of ∼3800 A(ring) for frequency selective feedback. The lasers have threshold currents in the range 25–35 mA at 30 °C. The lasing mode shifts to longer wavelengths with increasing temperature at 1 A(ring)/°C. The dynamic linewidth under 40-mA current modulation is ∼1 A(ring). The cw linewidth at an output power of 1 mW is ∼90 MHz. A monolithically integrated thermoelectric-controlled laser diode utilizing the DFB-DCPBH laser structure has been fabricated. The emission frequency of the laser can be continuously tuned by ±4 A(ring) using 50-mA controller current.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.336404

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The thermodynamics of ammonium scheelites. III. An analysis of the heat capacity and related data of deuterated ammonium perrhenate ND4ReO4 (1986)

Brown, R. J. C. ; Callanan, J. E. ; Weir, R. D. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 85 (1986), S. 5963-5970

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: An analysis of the heat capacity of deuterated and undeuterated NH4ReO4 has been carried out in which the effects of the anisotropy of the thermal expansion have been considered, an approach hitherto not used for ammonium compounds. In the ammonium scheelites, the axial thermal expansion coefficients are very large, but of opposite sign, and as a result the volume of the scheelite lattice is nearly independent of temperature. It is shown that the correction from constant stress to constant strain results in a major contribution to the heat capacity of this highly anisotropic lattice. The difference between the experimental and calculated values of heat capacity, referred to as ΔCp, is expressed as the sum of the contributions from the anisotropy and the rotational heat capacity. The results of the analysis show that the rotational contribution is much smaller then previously thought. However, the exact contribution of the anisotropy cannot be calculated at this time because the elastic constants are not known. In calculating the heat capacity, maximum use has been made of external optical mode frequencies derived from spectroscopic measurements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.451509

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