Monte Carlo modeling of organic polymer light-emitting devices on flexible plastic substrates

Lee, Shu Jen; Badano, Aldo; Kanicki, Jerzy

doi:10.1117/12.451883

Cited by 10 publications

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“…Similar angular emission profiles have been documented for other light-emitting display technologies with analogous emissive structures where isotropic light is generated in a thin-film layer sandwiched between a reflective backing and a front transparent faceplate. 3 Light absorption in the glass faceplate introduced to reduce veiling glare and control ambient reflections can cause some degree of departure from the Lambertian profile, especially at large viewing angles due to longer paths through the absorptive faceplate.…”

Section: Introductionmentioning

confidence: 99%

Angular dependence of the luminance and contrast in medical monochrome liquid crystal displays

et al. 2003

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Active-matrix liquid crystal displays (AMLCDs) are light-modulating devices that generate images by differentially transmitting a nearly uniform luminous field provided by a backlight. While emissive displays exhibit a quasi-Lambertian emission with almost constant contrast at off-normal viewing, the anisotropy of the electro-optic effect that controls light transmission in AMLCDs causes a pixel luminance that varies, sometimes strongly, with viewing angle. These variations are not identical for all gray levels and can eventually cause grayscale inversions. In this paper, we measured the luminance emission of a monochrome medical AMLCD, a medical cathode-ray tube monitor, and a color desktop AMLCD, using a collimated photopic probe positioned on a manual rotation arm, and a research radiometer with automatic readout. The probe measures luminance with a small acceptance angle and provides optical shielding from emissions at other viewing directions that contaminate the readings. We obtained luminance response curves versus angle in the vertical, horizontal and at 45 degrees diagonal directions. The display systems were calibrated to reflect the DICOM Part 3.14 standard grayscale display function (GDF) when measured using the manufacturer's probe and software tools. We analyzed the measurements at different viewing directions with respect to their departure from the GDF by computing the normalized contrast (deltaL/L) as a function of the DICOM just-noticeable difference index. Although cathode-ray tubes are known to be quasi-Lambertian emitters, the luminance at normal viewing is higher than the luminance observed at large angles. This decrease in luminance is however proportionally similar for all gray levels, resulting in a relatively flat contrast response for all angles. In addition to being more pronounced, the angular variation in AMLCDs does not follow the same profile at different intensities with the subsequent variation in the achieved display contrast. The changes due to off-normal viewing are substantial at large angles in the horizontal and vertical directions, and much worse in the diagonal viewing directions.

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Section: Introductionmentioning

confidence: 99%

Angular dependence of the luminance and contrast in medical monochrome liquid crystal displays

et al. 2003

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NewOLEDApplications

2017

OLED Display Fundamentals and Applications

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Organic Light‐Emitting Diodes

Muccini¹,

Toffanin²

2016

Organic Light‐Emitting Transistors

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An OLED is an electronic device made by placing a series of organic thin films between two conductors. When electrical current is applied, a bright light is emitted. OLEDs are lightweight, durable, power efficient and ideal for portable applications. OLEDs have fewer process steps and also use both fewer and lower-cost materials than LCD displays. More and more people believe that OLEDs can replace the current technology in many applications.First part of this seminar is a physical overview of semiconducting properties of organic polymers and takes a deeper insight in their electron structure. Second part of seminar deals with structural OLED properties and phosphorescence material doping phenomena as improvement of efficiency. Then it offers some technical facts, the question of stability of OLEDs and so present and future aspects of use in actual products.

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Monte Carlo modeling of organic polymer light-emitting devices on flexible plastic substrates

Cited by 10 publications

References 0 publications

Angular dependence of the luminance and contrast in medical monochrome liquid crystal displays

Angular dependence of the luminance and contrast in medical monochrome liquid crystal displays

NewOLEDApplications

Organic Light‐Emitting Diodes

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