Your search keyword '"Akiyoshi Mikami"' showing total 24 results

1. Optical analysis of the dual-microcavity effect in a red light-emitting organic device

Author

Akiyoshi Mikami

Subjects

Computer engineering. Computer hardware, Materials science, surface plasmon, Physics::Optics, 02 engineering and technology, light extraction, 01 natural sciences, TK7885-7895, 0103 physical sciences, General Materials Science, Red light, Electrical and Electronic Engineering, 010302 applied physics, organic light-emitting device, Condensed Matter::Other, business.industry, Extraction (chemistry), Surface plasmon, 021001 nanoscience & nanotechnology, Dual (category theory), microcavity, Optoelectronics, 0210 nano-technology, Luminescence, business, Organic light emitting device

Abstract

In this study, the effect of a dual microcavity on the luminescent characteristics and light extraction efficiency of organic red light-emitting devices with a multi-cathode structure was investigated. It was clarified that surface plasmon loss on a metal cathode was reduced to about one-fifth and can be efficiently extracted from the outside with the help of the dual-microcavity effect. About half of the radiant energy in dipole emission was successfully utilized as external and substrate modes. The luminous efficiency increased by about 1.52 times, and a narrow-band emission spectrum was observed with a forward directional red emission. The relationship between the luminescence characteristics and the dual-microcavity effect will be discussed from the viewpoint of the optical design of multi-stacked thin film devices.

Published

2020

2. Highly efficient and wide-color-gamut organic light-emitting devices using external microcavity

Author

Akiyoshi Mikami

Subjects

lcsh:Computer engineering. Computer hardware, Materials science, Physics::Instrumentation and Detectors, surface plasmon, Organic light-emitting device, Physics::Optics, lcsh:TK7885-7895, 02 engineering and technology, light extraction, 01 natural sciences, law.invention, Gamut, law, 0103 physical sciences, OLED, General Materials Science, Electrical and Electronic Engineering, 010302 applied physics, Condensed Matter::Other, business.industry, Surface plasmon, 021001 nanoscience & nanotechnology, Cathode, microcavity, Optoelectronics, 0210 nano-technology, Luminescence, business, Organic light emitting device

Abstract

An external microcavity structure was introduced to the stacked cathode in organic light-emitting devices (OLEDs), and its influence on the luminescent characteristics was investigated. From the detailed optical analysis that was conducted, it was found that the surface plasmon loss in a metal cathode can be reduced to about one-fifth by using a semi-transparent thin-film cathode, and can be extracted outside through the microcavity effect after being converted to the thin-film waveguide mode. No less than 50% of the optical power in dipole emission was successfully utilized as the external and substrate modes. The luminous efficiency increased about 1.4-fold, and the color purity of the luminance also improved. As a trial preparation of red, green, and blue OLEDs with the external microcavity structure, the color gamut improved greatly and approached the BT.2020 national standard. The effect of the external microcavity will be discussed from the viewpoint of multi-scale optical analysis.

Published

2019

3. Reduction of the Optical Loss in the Multi-Cathode Structure Organic Light Emitting Device Using a Long Range Surface Plasmon

Author

Akiyoshi Mikami

Subjects

010302 applied physics, Materials science, business.industry, Surface plasmon, Nanophotonics, Physics::Optics, Optical power, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Surface plasmon polariton, Cathode, law.invention, Dipole, Optics, law, 0103 physical sciences, Optoelectronics, Surface plasmon resonance, 0210 nano-technology, business, Localized surface plasmon

Abstract

Light extraction efficiency of organic light-emitting devices has improved by using a nano-sized multi-cathode structure consisting of semi-transparent metal and an optical compensation layer. From the detail optical calculation based on the multi-scale analysis including near-field optics, it was found that surface plasmon loss in the metal cathode is suppressed to less than 10% due to long range and short range surface plasmon coupling between both sides of metal cathode. Not less than 90% of optical power in the dipole emission can be successfully utilized as propagation light. Light extraction efficiency in a phosphorescent device has improved about twice by using the multi-cathode structure.

Published

2016

4. P-171L:Late-News Poster: The Control of Optical Properties by Back Cavity Effect in OLEDs with Multi-cathode Structure

Author

Akiyoshi Mikami and Shuhei Doi

Subjects

Materials science, business.industry, Surface plasmon, Nanophotonics, Physics::Optics, Optical power, Surface plasmon polariton, Cathode, law.invention, Optics, law, OLED, Optoelectronics, Phosphorescence, business, Localized surface plasmon

Abstract

Angular dependence of the emission intensity can be successfully controlled by using back-cavity effect in a multi-cathode structure. It is useful for this technique to optimize optical properties, without sacrificing electrical properties. In addition, surface plasmon loss in the cathode is significantly suppressed as a result of optical coupling between waveguide mode and long-range surface plasmon mode. Approximately 60% of optical power can be utilized as external mode.

Published

2015

5. High-efficiency green phosphorescent organic light-emitting diodes with double-emission layer and thick N-doped electron transport layer

Author

Shunichiro Nobuki, Shingo Ishihara, Akiyoshi Mikami, and Hironori Wakana

Subjects

Materials science, Physics::Instrumentation and Detectors, business.industry, Exciton, Metals and Alloys, Surfaces and Interfaces, Substrate (electronics), Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Materials Chemistry, OLED, Optoelectronics, Quantum efficiency, business, Phosphorescence, Refractive index, Layer (electronics), Diode

Abstract

We have developed green phosphorescent organic light-emitting diodes (OLEDs) with high external quantum efficiency of 59.7% and power efficiency of 243 lm/W at 2.73 V at 0.053 mA/cm2. A double emission layer and a thick n-doped electron transport layer were adopted to improve the exciton recombination factor. A high refractive index hemispherical lens was attached to a high refractive index substrate for extracting light trapped inside the substrate and the multiple-layers of OLEDs to air. Additionally, we analyzed an energy loss mechanism to clarify room for the improvement of our OLEDs including the charge balance factor.

Published

2014

6. P.122: Optical Control of Surface Plasmon Loss in Transparent Organic Light Emitting Devices Coupled with Optical Compensation Layer

Author

Akiyoshi Mikami and Takuya Ohashi

Subjects

Materials science, business.industry, Surface plasmon, Nanophotonics, Physics::Optics, Optical power, Green-light, Cathode, law.invention, Dipole, Optics, law, OLED, Optoelectronics, Phosphorescence, business

Abstract

Light extraction of transparent OLED can be improved by using an optical compensation layer on the back-side of semi-transparent metal cathode. From the results of detail optical calculation based on the multi-scale analysis including near-field optics, surface plasmon loss in semi-transparent metal cathode was drastically suppressed to less than 10% due to the increase of wave-vector caused by phase control of reflective coefficient of evanescent wave on the cathode interface. Not less than 90% of optical power in the dipole emission can be successfully utilized as the propagation light. The phosphorescent green light emitting device exhibits higher light extraction by a factor of about 1.5.

Published

2013

7. Optical Design of Enhanced Light Extraction Efficiency in Organic Light Emitting Device with an Optically Controlled Surface Plasmon Coupling

Author

Akiyoshi Mikami

Subjects

Coupling (electronics), Optics, Materials science, business.industry, Extraction (chemistry), Surface plasmon, Optoelectronics, Electrical and Electronic Engineering, business, Phosphorescence, Organic light emitting device, Organic electroluminescence

Published

2013

8. 51.1:Invited Paper: Optical Design of Enhanced Light Extraction Efficiency in Multi-Stacked OLEDs Coupled with High Refractive-Index Medium and Back-Cavity Structure

Author

Akiyoshi Mikami and Takao Goto

Subjects

Materials science, business.industry, High-refractive-index polymer, Surface plasmon, Physics::Optics, Waveguide (optics), Electromagnetic radiation, Cathode, Anode, law.invention, Optics, law, OLED, Optoelectronics, Optical buffer, business

Abstract

The light extraction of OLED has been successfully enhanced by employing high refractive index intermediate layer in the anode side and back-cavity structure in the cathode side Back-cavity structure consisting of semi-transparent cathode, optical buffer layer and high reflection mirror was newly introduced to reduce surface plasmon loss in the metal cathode. The high index inter-layer plays the role in the energy transfer from the waveguide mode to the substrate propagation mode by refractive matching between high refractive index ITO anode and the normal index glass substrate. From the results of detail optical calculation based on the multi-scale analysis including near-field optics, approximately 70∼80% of electromagnetic energy in the dipole emission was effectively converted to the glass and air modes by suppressing both surface plasmon and waveguide losses. The phosphorescent green light emitting device exhibits higher light extraction by a factor of 1.6∼1.7.

Published

2012

9. Optical design of 200‐lm/W phosphorescent green light emitting devices based on the high refractive index substrate

Author

Akiyoshi Mikami

Subjects

Materials science, business.industry, High-refractive-index polymer, Physics::Optics, Substrate (printing), Electroluminescence, Condensed Matter Physics, Physical optics, Refraction, Waveguide (optics), Optics, OLED, Optoelectronics, Quantum efficiency, business

Abstract

Light extraction efficiency has been successfully enhanced by using high refractive index substrate coupled with micro-lens array and weak micro-cavity structure. Optical energy intensity including waveguide, substrate and external modes was analyzed based on wave optics. It was shown that most of the waveguide mode is turned to the substrate mode by the effect of high index refraction substrate. About a half of the light can be extracted from the substrate by the assistance of surface textured structure. An external quantum efficiency of 57% and a power efficiency of over 200-lm/W were obtained in a green phosphorescent device. (© 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published

2011

10. Study on Exhaust System in Aerostatic Jornal Bearings for High Vacuum Chamber

Author

Shinsuke Danbara, Akiyoshi Mikami, Yuichi Yoshida, Kenichi Iwasaki, and Shigeka Yoshimoto

Subjects

Engineering, Bearing (mechanical), Physics::Instrumentation and Detectors, business.industry, Mechanical Engineering, Physics::Medical Physics, Ultra-high vacuum, Mechanical engineering, Seal (mechanical), law.invention, General Relativity and Quantum Cosmology, law, Vacuum chamber, business

Abstract

This paper investigates the availability of aerostatic journal bearings to a high vacuum chamber, theoretically and experimentally. This bearing has several steps of a viscous seal, and vacuum pumps are connected to the space between viscous seals in order to achieve the vacuum degree of less than 10-3 Pa in a vacuum chamber. The vacuum degree of a chamber is affected by many design parameters such as the number of steps of a viscous seal, seal length, seal gap, the pumping speed of vacuum pumps and the conductance of exhaust tubes. Influences of these design parameters on the vacuum degree are theoretically discussed and the theoretical predictions are compared with the experimental data. It is found that the aero-static journal bearing with viscous seals can achieve the vacuum degree of the order of 10-4 Pa in a vacuum chamber by properly designing the seal regions.

Published

2002

11. Fundamental properties and application of Zn1−XMgXS:Mn thin film electroluminescent devices

Author

Masaru Yoshida, Akiyoshi Mikami, Mikihiro Noma, and Kouichi Tanaka

Subjects

Lattice constant, Materials science, Vacuum deposition, business.industry, Band gap, Doping, General Physics and Astronomy, Optoelectronics, Phosphor, Emission spectrum, Electroluminescence, Thin film, business

Abstract

By Mg doping of ZnS, the lattice constants and the band gap of Zn1−XMgXS host material were increased. The emission spectrum of Mn in Zn1−XMgXS shifted to shorter wavelengths than that of ZnS:Mn. The electroluminescent (EL) devices fabricated with the source of X=0.32 show 552 nm peak yellowish–green emission. Deposition conditions for the Zn1−XMgXS:Mn phosphor layer were optimized to obtain bright emission. As a result, the Zn1−XMgXS:Mn EL devices have a luminance of 282–333 cd/m2 which is as high as that of the conventional ZnS:Mn EL devices.

Published

1998

12. Optical design and analysis of high efficiency organic green light emitting devices with light extraction structure

Author

Akiyoshi Mikami

Subjects

Microlens, Materials science, Light extraction in LEDs, business.industry, High-refractive-index polymer, Physics::Optics, Physical optics, Optics, OLED, Optoelectronics, Quantum efficiency, business, Refractive index, Electrical efficiency

Abstract

Light extraction efficiency has been enhanced by using weak micro-cavity structure and high refractive index substrate coupled with micro-lens array. Phosphorescent green light emitting device designed by wave optics showed external quantum efficiencies more than 50% and power efficiencies of 200-lm/W.

Published

2010

13. Chemical vapor deposition of ZnS: Mn electroluminescent films in a low-pressure halogen transport system

Author

Tanaka Koichi, Okibayashi Katsuji, Shigeo Nakajima, Masaru Yoshida, Kosuke Terada, and Akiyoshi Mikami

Subjects

Photoluminescence, Silicon, Chemistry, business.industry, Analytical chemistry, chemistry.chemical_element, Crystal structure, Chemical vapor deposition, Electroluminescence, Condensed Matter Physics, Epitaxy, Inorganic Chemistry, Optics, Materials Chemistry, Thin film, business, Single crystal

Abstract

A new technique to produce a manganese-doped zinc-sulfide (ZnS) electroluminescent (EL) film has been developed using a low-pressure chemical vapor deposition system. The Mn 2+ ions are doped in the ZnS layer by controlling the flow rate of the hydrogen-chloride (HCl) carrier gas. Undoped ZnS films show 〈111〉-oriented cubic structure, whereas the Mn-doped ZnS films have hexagonal structure with 〈00·1〉 preferred orientation. The crystal structure changes from cubic to hexagonal with incorporation of the Mn-dopant. The single crystal layers are epitaxially grown on a silicon substrate at 500°C. A strong blue-light emission originating from a self-activated center is observed in the photoluminescence spectra. This blue band, however, is rapidly quenched with increasing the Mn concentration. It is clarified that a competitive adsorption phenomenon between Zn-Cl 2 and Mn-Cl 2 species on the growing surface plays an important role in the growth process and the film characteristics. A high efficiency of 4 lm/W and a steep luminance-voltage curve with a saturation luminance exceeding 3500 cd/m 2 are obtained in a device with double insulator structure under 1 kHz excitation. The crystalline properties and luminescence characteristics are discussed in terms of the effect of the Mn-doping and the growth temperature.

Published

1991

14. Paper No P15: Enhancement of Extraction Efficiency in OLED with Multi-Cathode Structure Prepared on a Plastic Substrate

Author

Shuhei Doi and Akiyoshi Mikami

Subjects

Materials science, business.industry, law, Extraction (chemistry), OLED, Optoelectronics, Substrate (printing), Green-light, business, Phosphorescence, Waveguide (optics), Cathode, law.invention

Abstract

Light extraction of organic light-emitting device has been successfully enhanced by preparing on a plastics substrate. We describe optical design method of mode conversion for reducing optical losses in waveguide and evanescent modes by introducing a new cathode and a plastic substrate. The phosphorescent green light emitting device exhibits higher light extraction by a factor of 2–3.

Published

2015

15. High Efficiency White-Light-Emitting Organic Devices Coupled With Lateral Color Conversion Layer

Author

Akiyoshi Mikami

Subjects

Organic semiconductor, Optics, Materials science, business.industry, Organic devices, Optical materials, White light, OLED, Organic layer, Optoelectronics, Structure based, business, Blue emission

Abstract

In this paper, we propose a high efficiency white OLED structure based on the color conversion technique named "side-coupling color-conversion method (SC3M)", in which the blue emission from organic layer is laterally transferred to the adjacent orange color-conversion material. Two times higher efficiency is possible compared with an original blue-OLED. The objective of this work is to demonstrate the possibility and high performance of the white-OLED with SC3M structure

Published

2006

16. 60.4L: Late-News Paper: High Efficiency 200-lm/W Green Light Emitting Organic Devices Prepared on High-Index of Refraction Substrate

Author

Takahiro Koyanagi and Akiyoshi Mikami

Subjects

Materials science, Optics, business.industry, High-refractive-index polymer, Optoelectronics, Quantum efficiency, Substrate (electronics), Green-light, business, Refraction, Electrical efficiency, Refractive index, Threshold voltage

Abstract

The total flux of the emitted light has been successfully enhanced by employing high refractive index (n=2.0) glass substrate coated with a light extraction layer. The normal CBP:Ir(ppy)3 based small molecule multilayer device exhibits a maximum external quantum efficiency of 56.9% and a power efficiency of 210-lm/W with a threshold voltage of 2.7V. Optical mode analysis by original computer software identified the importance of the control of refractive index of substrate for total improvement of out-coupling efficiency.

Published

2009

17. Introduction: Special Section on Extended Papers from the 15th International Display Workshops (IDW '08)

Author

Yoshifumi Shimodaira, Keiichi Betsui, and Akiyoshi Mikami

Subjects

Engineering, business.industry, Special section, Library science, Electrical and Electronic Engineering, business, Engineering physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2009

18. 17.2: High Efficiency Ultraviolet Light Emitting Organic Devices and Its Application to White Light Source

Author

Akiyoshi Mikami, Yuki Mizuno, and Shigeyuki Takeda

Subjects

Wavelength, Materials science, Organic devices, business.industry, Driving current, Ultraviolet light, White light, Optoelectronics, Operation time, Quantum efficiency, business, Luminance

Abstract

A high efficiency UV-OLED was developed and applied to a white light source by using red, green and blue color conversion materials. UV-OLED showed high external quantum efficiency of 3.1 % with a peak wavelength at 380nm. “White by UV” showed 5,000cd/m2 in luminance and stable white color (x=0.33, y=0.31) against driving current and operation time.

Published

2008

19. 35-3: High Efficiency Phosphorescent Organic Light-Emitting Devices Coupled with Lateral Color-Conversion Layer

Author

Yusuke Nishita, Akiyoshi Mikami, and Yoichi Iida

Subjects

Materials science, business.industry, law, Excited state, Optoelectronics, Phosphorescent organic light-emitting diode, Quantum efficiency, business, Phosphorescence, Layer (electronics), Excitation, law.invention

Abstract

A high efficiency phosphorescent light-emitting organic device has been developed based on a Side-Coupling-Color-Conversion-Method, in which the color-conversion layer was excited by the propagating light laterally transferred from the organic light emitting layer. The device showed an external quantum efficiency (EQE) of 24.2% by using a phosphorescent excitation light with 19.4% of EQE.

Published

2006

20. High-Efficiency Color and White Organic Light-Emitting Devices Prepared on Flexible Plastic Substrates

Author

Tatsuya Koshiyama, Tetsuro Tsubokawa, and Akiyoshi Mikami

Subjects

chemistry.chemical_classification, Materials science, business.industry, Doping, General Engineering, General Physics and Astronomy, Polymer, Electroluminescence, Fluorescence, law.invention, chemistry, Emission efficiency, law, Optoelectronics, business, Layer (electronics), Color coordinates, Light-emitting diode

Abstract

Blue, green and white organic light-emitting devices doped with fluorescent dyes have been successfully fabricated on high-refractive-index plastic substrates and characterized in terms of their electrical and optical properties. The devices consist of a wide-band-gap polymer emissive layer stacked with several small-molecule layers and were designed considering carrier balance, carrier confinement, dye-guest doping and optical characteristics. It was demonstrated that dye-doped polymer devices are effective for the improvement of color and emission efficiency. We demonstrated deep-blue-, bright-green- and pure-white light-emitting devices having external quantum efficiencies and color coordinates (x,y) of 6.0% (0.15,0.07), 5.5% (0.20,0.60) and 4.0% (0.33,0.33), respectively.

Published

2005

21. 11.1: High-Efficiency Color and White-Light-Emitting Polymer Devices with High-Index-of-Refraction Flexible Plastic Substrate

Author

Akiyoshi Mikami, Tesuro Tsubokawa, and Tatsuya Koshiyama

Subjects

chemistry.chemical_classification, Materials science, genetic structures, business.industry, High index, Doping, Polymer, Substrate (electronics), Refraction, Fluorescence, Optics, chemistry, White light, OLED, Optoelectronics, business

Abstract

In this paper, we describe that fluorescent guest doped polymer light-emitting devices have been successfully fabricated on high index of refraction plastic substrate and characterized in terms of electrical and optical viewpoints. Deep blue, bright green and pure white OLEDs showed external quantum efficiencies and color coordinates (x,y) of 5.1% (0.15,0.09), 5.5% (0.20,0.60) and 4.0% (0.33,0.33), respectively.

Published

2004

22. Brightness distribution in rf-sputtered zns:tbf3 electroluminescent panels

Author

Keiichi Ando and Akiyoshi Mikami

Subjects

Brightness, Materials science, Computer Networks and Communications, business.industry, General Physics and Astronomy, Charge density, Electroluminescence, Thermal conduction, Ion, Optics, Sputtering, Optoelectronics, Electrical and Electronic Engineering, Luminescence, business, Voltage

Abstract

Thin-film ZnS:TbF3 was deposited by sputtering and a thin-film electroluminescent panel having a display area of 34 mm × 34 mm was fabricated. The brightness distribution was investigated and film thickness variation and distribution of Tb luminescence centers were studied in conjunction with the brightness. It was found that uniformity of the brightness increases as the applied voltage increases and frequency decreases. Relative brightness deviation (Bmax -Bmin,)/Ba, where Bmax, Bmin and Ba indicate maximum, minimum and average brightness, respectively, of the film was 13 to 23% when it was driven by 5 kHz, 40-V voltage. It was observed that brightness distribution depends on film thickness of the ZnS:TbF3 layer and that the thinner part has higher brightness. Based on the consideration that thickness variation causes irregular field intensity as well as the conduction charge distribution, and results in brightness variation, we calculated the brightness deviation and found that it agreed well with the experimental results. It was also demonstrated that Tb ions were scattered uniformly in the sputtered ZnS film, which was proved to have uniform luminescence center distribution.

Published

1985

23. Five-layer structure electroluminescent devices prepared by RF sputtering

Author

Keiichi Ando and Akiyoshi Mikami

Subjects

Materials science, Computer Networks and Communications, business.industry, General Physics and Astronomy, Electroluminescence, Active layer, Threshold voltage, Sputtering, Optoelectronics, Breakdown voltage, Electrical and Electronic Engineering, business, Luminous efficacy, Layer (electronics), Voltage

Abstract

Five-layered electroluminescent (EL) devices having an active ZnS:TbF3 layer sand-wiched by an insulating layer and a low-resistive Ta2O5 layer were produced, and luminous characteristics were investigated. It was found that these devices provide high brightness and luminous efficiency compared with the conventional three-layered El devices, as well as low driving voltage. This is because the low-resistive layer between the active layer and the insulating layer is important in improvement of crystallinity of the active layer, increase of conduction carriers in the active layer, and improvement of device breakdown voltage which enables a thinner insulating layer compared to the three-layered structure. Bright green electroluminescence exceeding 1000 cd/m2 at 90 V and threshold voltage of 68 V have been obtained under 5-kHz sinusoidal voltage excitation.

Published

1986

24. Excitation processes of the Tb emission center in a ZnS:Tb,F thin film electroluminescent device

Author

Shigeo Nakajima, Akiyoshi Mikami, Koji Taniguchi, Takashi Ogura, and Masaru Yoshida

Subjects

Materials science, Annealing (metallurgy), business.industry, Biophysics, Optoelectronics, General Chemistry, Thin film, Electroluminescence, Condensed Matter Physics, business, Biochemistry, Atomic and Molecular Physics, and Optics, Excitation

Abstract

Excitation spectrum varies with Tb concentration, relative amount of F to Tb, post-deposition annealing and measurement temperature. From a comparison of EL with PL properties obtained with three kinds of excitation channels, it is concluded that direct impact excitation is a reasonable process.

Published

1988