Your search keyword '"Photoconductor"' showing total 158 results

151. DISCOTIC LIQUID CRYSTALLINE SEMICONDUCTORS.

Author

Kazuchika Ohta, Kazuaki Hatsusaka, Makiko Sugibayashi, Masahiro Ariyoshi, Kazue Ban, Fumihiro Maeda, Rie Naito, Kaoru Nishizawa, van de Craats, Anick M., and Warman, John M.

Subjects

*SEMICONDUCTORS, *LIQUID crystals, *IONIC mobility, *RARE earth metals

Abstract

Our works on discotic liquid crystalline semiconductors are reviewed. Some of them show very fast carrier mobilities. Novel sandwich rare earth metal complex, bis[octakis(alkylthio)phthalocyaninato]lutetium(III), shows a mobility of 0.71 cm 2 /Vs, which is the fastest in liquid crystals at the present time, so far as we know. It was also found that novel octaphenoxy- and/or hexaphenoxy-substituted phthalocyanine-based discotic liquid crystals exhibit spontaneous perfect homeotropic alignment in the tetragonal columnar mesophase. The corresponding polymer films showing the perfect homeotropic alignment at room temperature could be successfully prepared. Such marvelous films can be practically utilized as organic carrier transport materials and solar batteries. [ABSTRACT FROM AUTHOR]

Published

2003

152. Nanocrystallized CdS beneath the surface of a photoconductor for detection of UV light with picowatt sensitivity.

Author

Lin KT, Chen HL, Lai YS, Liu YL, Tseng YC, and Lin CH

Abstract

In this study, we demonstrated that the improvement of detection capability of cadmium sulfide (CdS) photoconductors in the ultraviolet (UV) regime is much larger than that in the visible regime, suggesting that the deep UV laser-treated CdS devices are very suitable for low-light detection in the UV regime. We determined that a nanocrystallized CdS photoconductor can behave as a picowatt-sensitive detector in the UV regime after ultra-shallow-region crystallization of the CdS film upon a single shot from a KrF laser. Photoluminescence and Raman spectra revealed that laser treatment increased the degree of crystallization of the CdS and led to the effective removal of defects in the region of a few tens nanometers beneath the surface of CdS, confirming the result by the transmission electron microscopy (TEM) images. Optical simulations suggested that UV light was almost completely absorbed in the shallow region beneath the surface of the CdS films, consistent with the observed region that underwent major crystal structure transformation. Accordingly, we noted a dramatic enhancement in responsivity of the CdS devices in the UV regime. Under a low bias voltage (1 mV), the treated CdS device provided a high responsivity of 74.7 A W(-1) and a detectivity of 1.0×10(14) Jones under illumination with a power density of 1.9 nW cm(-2). Even when the power of the UV irradiation on the device was only 3.5 pW, the device exhibited extremely high responsivity (7.3×10(5) A W(-1)) and detectivity (3.5×10(16) Jones) under a bias voltage of 1 V. Therefore, the strategy proposed in this study appears to have great potential for application in the development of CdS photoconductors for picowatt-level detection of UV light with low power consumption.

Published

2014

153. 30μm Heterodyne receiver

Author

Kostiuk, Theodor and Spears, David L.

Published

1987

154. Design considerations for an active feedback optical system

Author

Crosta, G, CROSTA, GIOVANNI FRANCO FILIPPO, Crosta, G, and CROSTA, GIOVANNI FRANCO FILIPPO

Abstract

The optical processor proposed here consists basically of a coherent light source and two liquid crystal light valves, of which the first converts incoherent input patterns into coherent ones; the second operates entirely on coherent signals. It is shown that, if the valve operating point is correctly chosen and its transfer characteristic linearized, negative feedback is implemented around the second valve. The valves perform as active system components, because they modulate the source power by their driving signals. The linear dynamic range, modulation transfer function, and time transient behaviour of the system are briefly studied

Published

1978

155. Design considerations for an active feedback optical system

Author

Giovanni Crosta and Crosta, G

Subjects

Physics, Operating point, photoconductor, Dynamic range, negative feedback, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Power (physics), Light valve, modulation transfer function, light valve, Control theory, Optical transfer function, Negative feedback, Transfer (computing), Transient (oscillation), liquid crystal, Electrical and Electronic Engineering

Abstract

The optical processor proposed here consists basically of a coherent light source and two liquid crystal light valves, of which the first converts incoherent input patterns into coherent ones; the second operates entirely on coherent signals. It is shown that, if the valve operating point is correctly chosen and its transfer characteristic linearized, negative feedback is implemented around the second valve. The valves perform as active system components, because they modulate the source power by their driving signals. The linear dynamic range, modulation transfer function, and time transient behaviour of the system are briefly studied.

Published

1978

156. Performance of diamond-based photoconductive devices in the UV range

Author

Stefano Salvatori, F. Galluzzi, Marco Marinelli, Emanuele Pace, P. Ascarelli, and Maria Cristina Rossi

Subjects

Settore FIS/01, Photocurrent, photoconductor, UV, Photoluminescence, Materials science, business.industry, Mechanical Engineering, Photoconductivity, Detector, Diamond, General Chemistry, engineering.material, Electronic, Optical and Magnetic Materials, Responsivity, Planar, Impurity, Materials Chemistry, engineering, Optoelectronics, Electrical and Electronic Engineering, business

Abstract

A detailed investigation of diamond-based UV planar photoconductors with interdigitated contacts is presented, analyzing in particular the influence of film morphology and texturing on device performance. Photoluminescence and photocurrent spectroscopies reveal a strong correlation between structural defects and detector selectivity, whereas impurities affect photocurrent yield mainly in highly oriented materials. Responsivity measurements show that diamond-based devices give the highest UV-visible discrimination in comparison to UV-enhanced Si- and GaN-based sensors. For λ ≤225 nm, an almost linear photocurrent-light intensity relationship is observed, although, in a few cases, a superlinear dependence on illumination intensity is found. A theoretical model, capable of describing the observed field dependendence of photocurrent gain is presented, giving minority carriers lifetime and mobility in the range 0.1–1 ns and 10–300 cm2V−1s−1, respectively.

157. Photoconductive Switching Of A High-Voltage Actuator Array

Author

Vesna Bacheva, Edouard Leroy, Shai Shmulevich, Aiste Balciunaite, Diana Davila, Eleonore Cauquil, Israel Gabay, Iago Pereiro, Herbert Shea, Govind V. Kaigala, and Moran Bercovici

Subjects

photoconductor, photocontrol, Hardware_GENERAL, voltage control, amorphous silicon, actuators

Abstract

We present a method to control individual high-voltage actuators in an array using microfabricated photoconductive switches and a light projection system, thus overcoming the challenges of on-chip control at high voltages. Such switching capabilities go beyond actuators - our proposed approach may open the door to the simple control of other high-voltage processes, such as MEMS, pressure sensors, and RF devices.

158. Sensitivity of PBS colloidal quantum dot photoconductors: A comparison of different readout methods

Author

Sabrina Foglia, Carlo Venettacci, Leonardo Scopa, A. De Iacovo, Lorenzo Colace, aavv, DE IACOVO, Andrea, Venettacci, Carlo, Colace, Lorenzo, Scopa, L., and Foglia, Sabrina

Subjects

Photodetector front-end, Materials science, business.industry, Noise reduction, PbS nanoparticle, Near-infrared spectroscopy, Near infrared photodetector, Photodetector, Optics, Quantum dot, Optoelectronics, Photoconductor, Electrical and Electronic Engineering, business, Electrical impedance, Low voltage, Sensitivity (electronics), Colloidal quantum dot, Dark current

Abstract

We report on colloidal PbS quantum dot near infrared photoconductors operating at low voltage. In order to maximize the device sensitivity, we exploited the advantages of different measurement techniques and methods for dark current cancellation and noise reduction including the DC volt-amperometric measurement with offset cancellation, a Wheatstone-bridge configuration and impedance measurements. We demonstrate that even photodetectors with moderate detectivity (10 9 -10 10 cmHz 1/2 /W), exhibit very large SNR.