H. Richter scite author profile

Deep levels in polycrystalline n-CdS/p-CdTe photovoltaic structures have been studied by deep level transient spectroscopy ͑DLTS͒. The results were obtained from cells which have undergone different post-deposition treatment ͑as-deposited, heat treated, and heat treated in the presence of CdCl 2 ). The DLTS results showed a deep level distribution independent of the post-deposition treatment. For all samples the spectra were dominated by a hole trap, localized at E V ϩ0.48 eV. Metastable hole and electron traps were also observed, mainly in the heat treated ͑with and without a CdCl 2 layer͒ devices.

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Far-infrared photoconductors for Herschel and SOFIA

Poglitsch¹,

Katterloher²,

Hoenle

et al. 2003

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We are presently developing large format photoconductor arrays for the Herschel Space Observatory and for the Stratospheric Observatory For Infrared Astronomy (SOFIA). These arrays are based on individual Ge:Ga detectors contained in integrating cavities which are fed by an array of light cones to provide for area-filling light collection in the focal plane of an instrument. In order to detect light at wavelengths > 12Oim, uniaxial stress has to be applied to each detector crystal. We have developed a method to efficiently stress an entire stack of detector elements which allows us to form two-dimensional arrays from an arbitrary number of linear detector modules. Each linear module is read out by a cryogenic readout electronics circuit which operates at 4 K and is mechanically integrated into the module. We have measured effective quantum efficiencies of the light cone / detector / read-out chain of > 30% under realistic background conditions. GaAs photoconductive detectors could extend the spectral response cut-off up to > 3OOm. In the past, a continuous progress in material research has led to the production of pure, lightly and heavily doped ntype GaAs layers using the liquid phase epitaxy technique (LPE). Sample detectors demonstrated the expected infrared characteristics of bulk type devices. Modeling of BIB detector types predicts an improved JR sensitivity due to the attainable higher doping of the infrared sensitive layer. However, the modeling gives also an stimate of the severe material requirements for the n-type blocking layer. With a new centrifugal technique for the LPE material growth we intend to achieve this goal. Technical details of this unique equipment, first results of the achieved material quality in the initial growth runs and future steps to optimize operational parameters are reported. If successful, this detector technology will be first implemented in our spectrometer FIFI LS for SOFIA. Downloaded From: http://proceedings.spiedigitallibrary.org/ on 10/09/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx Proc. of SPIE Vol. 4855 117 Downloaded From: http://proceedings.spiedigitallibrary.org/ on 10/09/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx

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Experimental investigation of the double exponential model of a solar cell under illuminated conditions: Considering the instrumental uncertainties in the current, voltage and temperature values

Veissid

Bonnet

Richter

1995

Solid-State Electronics

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H. Richter

Dependence of thin film solar cell characteristics on the processing conditions

Transmission electron microscopy of based solar cells

Deep level transient spectroscopy of CdS/CdTe thin film solar cells

Far-infrared photoconductors for Herschel and SOFIA

Experimental investigation of the double exponential model of a solar cell under illuminated conditions: Considering the instrumental uncertainties in the current, voltage and temperature values

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