• Title/Summary/Keyword: Nanosecond pulsed laser

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Parametric Studies of Pulsed Laser Deposition of Indium Tin Oxide and Ultra-thin Diamond-like Carbon for Organic Light-emitting Devices

  • Tou, Teck-Yong;Yong, Thian-Khok;Yap, Seong-Shan;Yang, Ren-Bin;Siew, Wee-Ong;Yow, Ho-Kwang
    • Journal of the Optical Society of Korea
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    • v.13 no.1
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    • pp.65-74
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    • 2009
  • Device quality indium tin oxide (ITO) films are deposited on glass substrates and ultra-thin diamond-like carbon films are deposited as a buffer layer on ITO by a pulsed Nd:YAG laser at 355 nm and 532 nm wavelength. ITO films deposited at room temperature are largely amorphous although their optical transmittances in the visible range are > 90%. The resistivity of their amorphous ITO films is too high to enable an efficient organic light-emitting device (OLED), in contrast to that deposited by a KrF laser. Substrate heating at $200^{\circ}C$ with laser wavelength of 355 nm, the ITO film resistivity decreases by almost an order of magnitude to $2{\times}10^{-4}\;{\Omega}\;cm$ while its optical transmittance is maintained at > 90%. The thermally induced crystallization of ITO has a preferred <111> directional orientation texture which largely accounts for the lowering of film resistivity. The background gas and deposition distance, that between the ITO target and the glass substrate, influence the thin-film microstructures. The optical and electrical properties are compared to published results using other nanosecond lasers and other fluence, as well as the use of ultra fast lasers. Molecularly doped, single-layer OLEDs of ITO/(PVK+TPD+$Alq_3$)/Al which are fabricated using pulsed-laser deposited ITO samples are compared to those fabricated using the commercial ITO. Effects such as surface texture and roughness of ITO and the insertion of DLC as a buffer layer into ITO/DLC/(PVK+TPD+$Alq_3$)/Al devices are investigated. The effects of DLC-on-ITO on OLED improvement such as better turn-on voltage and brightness are explained by a possible reduction of energy barrier to the hole injection from ITO into the light-emitting layer.

Aluminum ignition in laser-generated aluminum particles in high temperature and high pressure environment (고온 고압 환경에서 레이저를 이용한 알루미늄 입자 생성과 점화)

  • Lee, Kyung-Cheol;Taira, Tsubasa;Koo, Goon Mo;Lee, Jae Young;Park, Jeong Su;Yoh, Jai-ick
    • 한국연소학회:학술대회논문집
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    • 2012.11a
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    • pp.101-103
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    • 2012
  • Characteristic of aluminum ignition under high temperature and high pressure is studied using lasers. The laser ablation method is used to generate aluminum particles exposed to a high pressure by using a nanosecond pulsed laser where the range of ablation pressure varies between 0.35 and 2.2 GPa. A $CO_2$ laser is used to supply radiative heat to the aluminum target surface for providing high temperature ranging between 5000~9300 Kelvin. The ignition is confirmed using spectroscopy analysis of AlO vibronic band 484 nm wavelength. Also the radiative temperature is measured in various high pressure range for tracing the ignition temperature in high pressure conditions.

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Micro-pattern Fabrication of Amorphous Alloy by Laser Beam Machining (비정질 합금의 마이크로 패턴 레이저 가공)

  • Kim, Haan;Park, Jong Wuk
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.21 no.4
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    • pp.77-83
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    • 2022
  • Amorphous alloys exhibit excellent mechanical properties; therefore, application technology development is being attempted in various fields. However, industrial use of application technology is limited owing to the limitations in fabrication. In this study, micropattern fabrication of an amorphous alloy was conducted using laser beam machining. Although microhole fabrication is possible without the deformation of the amorphous phase through nanosecond pulsed laser beam machining, there are limitations in the generation of recast layers and spatters. In cover plate laser beam machining (c-LBM), a cover plate is used to reduce the thermal deformation and processing area. Therefore, it is possible to fabricate holes at the level of several micrometers. In this study, it was confirmed that recast layers are hardly generated in c-LBM. Furthermore, square-shaped micropatterns were successfully fabricated using c-LBM.

Analysis of the Effect of Micro-groove Patterns on Osseointegration using Pulsed Laser Processing (펄스 레이저 가공에 의한 마이크로 그루브 패턴이 골 세포 유착에 미치는 영향 분석)

  • Seok-Jae Ha;Si-Myung Sung;Hye-Jin Kim
    • Design & Manufacturing
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    • v.18 no.3
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    • pp.30-36
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    • 2024
  • As the demand for biomaterials and medical devices increases due to advancements in medical technology and the rising average lifespan of the population, the importance of surface treatment technology for biometallic materials used in orthopedic implants is highlighted. Achieving stable mechanical attachment between the implant and human bone, specifically bone cell adhesion, is crucial. Without proper adhesion, issues such as inflammation and reduced load-bearing capacity can occur, leading to the need for implant reimplantation. Therefore, this paper focuses on creating a micro-groove pattern using a pulsed nanosecond laser on the surface of a titanium alloy (Ti6Al4V), a biometallic material, to promote cell adhesion. To evaluate the effectiveness of the pattern in enhancing cell adhesion, MG-63 osteoblasts were cultured on the micro-groove patterned surface, and their adhesion and morphological changes were analyzed. This study confirms the potential of laser processing as a surface treatment method for biometallic materials.

Dynamics and Transport of Molecules Studied by Transient Grating Method : Methyl Red in Solution

  • 김선희;김성규
    • Bulletin of the Korean Chemical Society
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    • v.17 no.4
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    • pp.365-373
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    • 1996
  • Time profile of the transient grating signal induced by a nanosecond pulsed laser excitation of methyl red is investigated in alcohols and toluene at several solvent temperatures. The signal decays biexponentially with well-separated time constants; the faster decay is identified as due to thermal diffusion of the solvents and the slower one as mainly due to translational diffusion of the solute. The measured translational diffusion constants of methyl red in toluene are close to a hydrodynamic prediction with a slip boundary condition while those in alcohols are larger by 30% and increase slightly with the size of alcohols. We compare the results with modified hydrodynamic models.

Study on High Speed Laser Cutting of Rigid Flexible Printed Circuit Board by using UV Laser with Nano-second Pulse Width (자외선 나노초 펄스 레이저를 이용한 경연성(Rigid Flexible) 인쇄전자회로기판(Printed Circuit Board) 고속 절단에 관한 연구)

  • Bae, Han-Sung;Park, Hee-Chun;Ryu, Kwang-Hyun;Nam, Gi-Jung
    • Journal of the Korean Society for Precision Engineering
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    • v.27 no.2
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    • pp.20-24
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    • 2010
  • High speed cutting processes of rigid flexible printed circuit board by making use of high power UV laser with nano-second pulse width have been proposed and investigated experimentally. Also robust laser cutting system has been designed and developed in order to obtain a good cutting quality of rigid and flexible PCB with multi-layers (2-6 layers). Power controller module developed for ourselves is adapted to control the laser output power in the range less than 1%. The systems show the good performance of cutting speed, cutting width and cutting accuracy, respectively. Especially we have confirmed that the short circuit problem due to the carbonized contamination occurred in cross section of multi-layers by thermal effect of high power laser has been improved largely by using multi-pass cutting process with low power and high speed.

Laser Ablation of Polypropylene Films using Nanosecond, Picosecond, and Femtosecond Laser

  • Sohn, Ik-Bu;Noh, Young-Chul;Kim, Young-Seop;Ko, Do-Kyeong;Lee, Jong-Min;Choi, Young-Jin
    • Journal of the Optical Society of Korea
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    • v.12 no.1
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    • pp.38-41
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    • 2008
  • Precise micropatterning of polypropylene film, which is highly transparent in the wavelength range over 250 nm has been demonstrated by 355 nm nano/picosecond laser and 785 nm femtosecond laser. Increments of both the pulse energy and the shot number of pulses lead to cooccurrence of photochemical and thermal effects, demonstrated by the spatial expansion of rim on the surface of PP. The shapes of the laser-ablated polypropylene films were imaged by optical microscope and measured by a 3D optical measurement system. And, the ablation depth and width of polypropylene film ablated by femtosecond laser at various pulse energy and pulse number were characterized. Our results demonstrate that a femtosecond pulsed laser is an efficient tool for fabricating micropatterns of polypropylene films, where the micropatterns are specifically tailored in size, location and number easily controlled by laser processing conditions.

Probing of Microscale Phase-Change Phenomena Based on Michelson Interforometry (Michelson 간섭계를 응용한 미세 상변화 현상 계측)

  • Kim, Dong-Sik;Park, Hee-K.;Grigoropoulos, Costas P.
    • Proceedings of the KSME Conference
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    • 2001.06d
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    • pp.348-353
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    • 2001
  • Experimental schemes that enable characterization of phase-change phenomena in the micro scale regime is essential for understanding the phase-change kinetics. Particularly, monitoring rapid vaporization on a submicron length scale is an important yet challenging task in a variety of laser-processing applications, including steam laser cleaning and liquid-assisted material ablation. This paper introduces a novel technique based on Michelson interferometry for probing the liquid-vaporization process on a solid surface heated by a KrF excimer laser pulse (${\lambda}=248nm,\;FWHM=24\;ns$) in water. The effective thickness of a microbubble layer has been measured with nanosecond time resolution. The maximum bubble size and growth rate are estimated to be of the order of $0.1{\mu}m\;and\;1\;m/s$, respectively. The results show that the acoustic enhancement in the laser induced vaporization process is caused by bubble expansion in the initial growth stage, not by bubble collapse. This work demonstrates that the interference method is effective for detecting bubble nucleation and microscale vaporization kinetics.

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Probing of Microscale Phase-Change Phenomena Based on Michelson Interforometry (Michelson 간섭계를 응용한 미세 상변화 현상 계측)

  • Kim, Dong-Sik;Park, Hui-Gwon;Grigoropoulos, Costas-P.
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.25 no.8
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    • pp.1140-1147
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    • 2001
  • Experimental schemes that enable characterization of phase-change phenomena in the microscale regime are essential for understanding the phase-change kinetics. Particularly, monitoring rapid vaporization on a submicron length scale is an important yet challenging task in a variety of laser-processing application, including steam laser cleaning and liquid-assisted material ablation. This paper introduces a novel technique based on Michelson interferometry for probing the liquid-vaporization process on a solid surface heated by a KrF excimer laser pulse(λ=248nm, FWHM=24ns) in water. The effective thickness of a microbubble layer has been measured with nanosecond time resolution. The maximum bubble size and growth rate are estimated to be of the order of 0.1㎛ and 1m/s, respectively. The results show that the acoustic enhancement in the laser induced vaporization process is caused by bubble expansion in the initial growth stage, not by bubble collapse. This work demonstrates that the interference method is effective for detecting bubble nucleation and microscale vaporization kinetics.

Phase change properties of BN doped GeSbTe films

  • Jang, Mun-Hyeong;Park, Seong-Jin;Park, Seung-Jong;Jeong, Gwang-Sik;Jo, Man-Ho
    • Proceedings of the Korean Vacuum Society Conference
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    • 2010.08a
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    • pp.226-226
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    • 2010
  • Boron Nitride (BN) doped GeSbTe films were grown by the ion beam sputtering deposition (IBSD). The in-situ sheet resistance data and the x-ray diffraction patterns showed the crystallization is suppressed due to the BN incorporation. The phase change speed in BN doped GeSbTe films were investigated using the static tester equipped with nanosecond pulsed laser. The phase change speed for BN doped GST films become faster than the corresponding values for an undoped GST film. The Johnson-Mehl-Avrami(JMA) plot and Avrami coefficient for laser crystallization showed that the change in growth mode during the laser crystallization is a most important factor for the phase change speed in the BN doped GST films. The JMA results and the atomic force microscopy (AFM) images indicate that the origin of the change in the crystalline growth mode is due to an increase in the number of initial nucleation sites which is produced by the incorporated BN. In addition, the retension properties for the laser writing/erasing are remarkably improved in BN doped GeSbTe films owing to the stability of the incorporated BN.

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