Output luminance of an RGB‐LED backlight for an LCD‐TV was adaptively dimmed along with input video signal in fashions of 0D (uniform dimming), 1D (line dimming), and 2D (local dimming). It has been proven experimentally that the backlight power can be reduced to 83%, 71%, and 50%, respectively, for a typical sample movie having 8.0% post‐gamma average picture level (which is equal to the average luminance level). Further simulation study revealed that the power consumption can be reduced to the value equal to that of the post‐gamma APL.
12CaO·7Al 2 O 3 electride, a sub-nanoporous compound having a work function of 2.4 eV, was examined as a candidate cathode material in fluorescent lamps. The electron emission yield was higher and the discharge voltage was lower for 12CaO·7Al 2 O 3 than for existing cathode materials such as Ni, Mo or W; therefore, the energy consumption of the fluorescent lamps can be improved using 12CaO·7Al 2 O 3 cathodes. Prototype glow-discharge lamps using 12CaO·7Al 2 O 3 were constructed and exhibited reasonable durability.
Output luminescence of Zn2SiO4 : Mn phosphor saturates under intense vacuum ultraviolet radiation having a relatively high excitation duty ratio. The saturation is attributed to the depletion of activators at the ground level. This depletion originates from the long decay time constant of the phosphor. The saturation mechanism is explained analytically using a simple model, and the conditions for efficient phosphor excitation are derived.
Many display devices including color PDPs, DMDs, ferroelectric LCDs, and ELs express gray levels by accumulating pictures of multiple sub-frames with the aid of retinal after-image effect. Additionally, some of these devices use frame-sequential color-multiplexed backlights. When the observer's eye sweeps across the screen, unexpected visual artifacts, e.g. false contours and color breakup may be produced.These artifacts will be quantified, and methods of reducing them will be introduced.
The Holstein's theory of the imprisonment of resonance radiation for pressure-broadened Lorentzian profiles is extended to the Xe-based binary gas mixtures which are widely employed in practical discharge devices. In the binary mixtures, collisions between radiating and buffer atoms modify the emission and absorption spectrum profiles, affecting the imprisonment characteristics. It is found that the imprisonment time Tp is independent of total or partial pressures, provided that the Xe mixture ratio m and discharge tube diameter D are kept constant. Tp is proportional to D1/2. It is also proportional to m1/2 when m is sufficiently small, and becomes independent of m when m approaches unity. The 'broadening coefficients' xi Xe, xi He and xi Ne are defined as degrees of broadening of the Xe emission/absorption profiles due to collisions with Xe, He and Ne, respectively, in terms of half-widths at half-maxima per unit ground state atom density. By measuring Tp using cylindrical discharge tubes of diameters D=2, 5, 10 and 25 mm filled with various mixtures of He-Xe and Ne-Xe, the unknown coefficients are determined to be xi He=1.2*10-16 m3 s-1 and xi Ne=8.0*10-17 m3 s-1. These are 0.059 and 0.039 times that of xi X3, respectively. Knowledge of the coefficients allows us to calculate imprisonment times for any gas mixture and discharge space configuration. A reduction in Tp favours an increase of luminance and luminous efficiency in two ways. One is that luminance saturation with respect to the discharge current becomes less likely to occur, and the other is that, even under the fully saturated condition, luminance is higher with smaller Tp. Smaller Xe mixture ratios and tube diameters favour shortening of Tp. A reduction of m from 1 to 0.01 results, for any value of D, in a decrease in Tp by a factor of 2.6, assuring quicker escape of VUV from the volume. Since neither the total pressure nor Xe, He or Ne partial pressures affect Tp as long as the Xe mixture ratio is kept constant, these pressures can be chosen by considering only the conditions that provide the best discharge.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.