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NTIS 바로가기大韓溶接·接合學會誌 = Journal of the Korean Welding and Joining Society, v.26 no.4, 2008년, pp.27 - 33
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C. Molpeceres, S. Lauzurica, J. L. Ocana, J. J. Gandia, L. Urbina, and J. Carabe, "Microprocessing of ITO and a-Si thin films using ns laser sources," J. Micromech. Microeng., 15: 1271-1278, 2005
H. Choi, D. Farson, J. Bovatsek, A. Arai, and D. Ashkenasi Direct-write patterning of indium- tin-oxide film by high pulse repetition frequency femtosecond laser ablation, Applied Optics, 46(23): 5792-5799, 2007
B. Stuart, M.F., A. Rubenchik, B. Shore, and M. Perry, Laser-induced damage in dielectrics with nanosecond to subpicosecond pulses. Physical Review Letters, 74(12): 2248-2252, 1995
J. Ihlemann, a.B.W.-R., Excimer laser micro machining of inorganic dielectrics. Applied surface science, 106: 282-286, 1996
G. Kopitkovas, T.L., C. David, A. Wokaun, and J. Gobrecht, Surface micromachining of UV transparent materials. Thin solid films, 453: 31-35, 2004
A. Glover, E.I., and J. Piper, High speed UV micro machining of polymers with frequency doubled copper vaport lasers. IEEE journal of quantum electronic, 1(3): 830-836, 1995
K. Naessens, H.O., P. Daele, and R. Baets, Flexible fabrication of microlenses in polymer layers with excimer laser ablation. Applied surface science, 208-209: 159-164, 2003
X. Liu, D.D., and G. Mourou, Laser ablation and micromachining with ultrashort laser pulses. IEEE journal of quantum electronics, 33(10): 1706-1716, 1997
B. Stuart, M.F., A. Rubenchik, B. Shore, and M. Perry, Laser-induced damage in dielectrics with nanosecond to subpicosecond pulses. Physical Review Letters, 74(12): 2248-2252, 1995
S. Nolte, C.M., H. Jacobs, A. Tunnermann, B. Chichkov, B. Wellegehausen, and H. Welling, Ablation of metals by ultrashort laser pulses. J. Opt. Soc. Am. B, 14(10): 2716-2722, 1997
C. Momma, S.N., B. Chichkov, F. Alvensleben, and A. Tunnermann, Precise laser ablation with ultrashort pulses. Applied surface science, 109(110): 15-19, 1997
T. Tamaki, W. Watanabe, J. Nishi and K. Itoh, Welding of Transparent Materials Using Femtosecond Laser Pulses, Japanese Journal of Applied Physics, 44(22): 687-689, 2005
T. Tamki, W. Watanabe, K. Ioh, Laser microwelding of transparent materials by a localized heat accumulation effect using a femtosecond fiber laser at 1558nm, Optics Express, 14(22): 10468-10476, 2006
T. Itina, J.H., Ph. Delaporte, and M. Sentis, Modeling of metal ablation induced by ultrashort laser pulses.Proceedings of symposium H on photonic processing of surfaces - Thin films and devices, E-MRS: 453-454, 2004
F. Vidal, T.J., S. Laville, O. Barthelemy, M. Chaker, B. LeDegoff, J. Margot, and M. Sabsabi, Critical-point phase separation in laser ablation of conductors. Physical Review Letters, 86(12): 2573-2576, 2001
N. Bulgakova, Possibility of rarefaction shock wave under short pulse laser ablation of solids. Physical Review E, 60(4): R3498 - R3500, 1999
E. Gamaly, A.R., B. Luther-Davies, and V. Tikhonchuk, Ablation of solids by femtosecond lasers: Ablation mechnasim and ablation thresholds for metals and dielectrics. Physics of plasma, 9(3): 949-957, 2002
L. Schlessinger, J. W, Inverse-bremsstahlung absorption rate in an intense laser field. Physical Review A, 20(1934-1945), 1979
S. Rand, Inverse Bremsstrahlung with High- Intensity Radiation Fields. Physical Review Letters, 136(1B): B231-B237, 1964
S. Valette, R.H., N. Huot, E. Audouard, and R. Fortunier, 2D Calculations of the thermal effects due to femtosecond laser-metal interaction. Applied surface science, 247: 238-242, 2005
I. Burakov, N.B., R. Stoian, A. Rosenfeld, and I. Hertel, Theoretical invesitication of material modification using temporally shaped femtosecond laser pulses. Appl. Phys. A, 81: 1639-1645, 2005
N. Singh, D.A., J. Schiffern, and D. Doerr, Femtosecond laser productrion of metal surfaces having unique surface structures that are broadband absorvers. Journal of Laser Applications, 18(3): 242-244, 2006
S. Kirkwood, A.V.P., Y. Tsui, and R. Fedosejevs, Single and multiple shot near-infrared femtosecond laser pulse ablation thresholds of copper. Appl. Phys. A, 81(729-735), 2005
Y. Jee, M.B., and R. Walser, Laser-induced damage on single-crystal metal surfaces. Optical physics, 5(3): 648-659, 1988
P. Mannion, J.M., E. Coyne, G. O'Connor, and T. Glynn, The effect of damage accumulation behabiour on ablation thresholds and damage morphology in ultrafast laser micro-machining of common metals in air. Applied surface science, 223: 275-287, 2004
H. Choi, J. Johnson, J. Nam, D. Farson, J. Lannutti, Structuring electrospun polycaprolactone nanofiber tissue scaffolds by femtosecond laser ablation. Journal of Laser Applications, 2007
C. Schaffer, A.B.a.E.M., Laser induced breakdown and damage in bulk transparent materials induced by tightly focused femtosecond laser pulses. Meas. Sci. Technol., 12: 1784-1794, 2001
M. Lenzner, J.K., S. Sartania, Z. Cheng, C. Spielmann, G. Mourou, W. Kautek, and F. Krausz, Femtosecond Optical Breakdown in Dielectrics. Physical Review Letters, 80(18): 4076-4079, 1998
A. Zoubir, C.R., R. Grodsky, K. Richardson, M. Richardson, T. Cardinal, and M. Couzi, Laserinduced defects in fused silica by femtosecond IR irradiation. Physical Review B, 73: 224117(5), 2006
C. Aguilar, Y.L., S. Mao, and S. Chen, Direct micro-patterning of biodegradable polymers using ultraviolet and femtosecond lasers. Biomaterials, 26: 7642-7649, 2005
A. Rosenfeld, M.L., R. Stoian, and D. Ashkenasi, Ultrashort laser pulse damage threshold of transparent materials and the role of incubation. Appl. Phys. A, 69(Suppl.): S373-S376, 1999
D. Ashkenasi, M.L., R. Stoian, and A. Rosenfeld, Surface damage threshold and structuring of dielectrics using femtosecond laser pulses: the role of incubation. Appl. Surface Sci., 150: 101-106, 1999
S. Campbell, F.D., D. Hand, and D. Reid, Single-pulse femtosecond laser machining of glass. J. Opt. A: Pure Appl. Opt., 7: 162 - 168, 2005
A. Ben-Yakar, A.H., J. Ashmore, R. Byer, and H. Stone, Thermal and fluid processes of a thin melt zone during femtosecond laser ablation of glass : the formation of rims by single laser pulses. J. Appl. Phys. D, 40: 1447-1459, 2007
D. Gomez, I.G., I. Lizuain, and M. Ozaita, Femtosecond laser ablation for microfluidics. Optical engineering, 44(5): 051105:1-8, 2005
F. Costache, a.J.R., Femtosecond laser induced Coulomb explosion from calcium fluoride. Thin solid films, 453: 334-339, 2004
Chen J, Farson DF, Rokhlin SI, Femtosecond laser stimulation of electrical discharges in submicron and nanoscale gaps, APPLIED PHYSICS LETTERS, 90(20), 201505, 2007
D. Farson, H. Choi, S. Rokhlin, Electrical discharges between platinum nanoprobe tips and gold films at nanometre gap lengths, Nano-technolgy, 17, 132- 139, 2006
Cumpston et al, Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication, Nature Vol. 398, 51-53, 1999
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H. Zhang, M. Tang, J. McCoy, and T. Her, Deposition of tungsten nanogratings induced by a single femtosecond laser beam, Optical Express 15(10), 5937-5947, 2007
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