Rezultate obtinute
2009 - faza intermediara
- faza finala
- baza date articole
2010
2011
2009 - Faza intermediara - Articolele echipei
1. N. Semmar, M. Tebib, J. Tesar, N.N. Puscas, E. Amin-Chalhoub, „Direct observation of phase transitions by time-resolved pyro/reflectometry of KrF laser-irradiated metal oxides and metals”, Applied Surface Science 255 (2009) 5549–5552
2. I. Vladoiu, M. Stafe, C. Negutu and I.M. Popescu, „Influence of the pulse number and fluence of a nanosecond laser on the ablation rate of metals, semiconductors and dielectrics”, Eur. Phys. J. Appl. Phys. 47, 30702 (2009)
3. N. N. Puscas, „Characterization and Modelling the Er -Doped Ti:LiNbO3 Optical Waveguide Couplers”, The 7 th General Conference of the BPU, 9-13 September, 2009, Alexandropolis, Grecia
4. M. Stafe, C. Negutu, I. Vladoiu, S. S. Ciobanu, B. Savu, N. N. Puscas, ‘Spectroscopic study of the plasmas generated by nanosecond laser ablation of Er3+-doped Ti:LiNbO3 targets’, Micro- to Nano-Photonics II - ROMOPTO 2009, Sibiu, Romania (Aug. 31-Sept. 3, 2009)
5. N. N. Puscas, S. S. Ciobanu, C. Negutu, M. Stafe, ‘Modelling of the Er3+-doped Ti:LiNbO3 optical waveguide couplers', Micro- to Nano-Photonics II - ROMOPTO 2009, Sibiu, Romania (Aug. 31-Sept. 3, 2009)
6. M. Stafe, I. Vladoiu, C. Negutu, A. Ducariu, I.M. Popescu, ‘Experimental investigation of the dimensions and quality of the laser-drilled holes in metals’, International Symposium on SPIE Optical Engineering and Applications, San Diego, California, USA (Aug. 2-6, 2009).
2009 - Baza date articole stiintifice
1. Peyre, P; Carboni, C; Forget, P; Beranger, G; Lemaitre, C; Stuart, D 'Influence of thermal and mechanical surface modifications induced by laser shock processing on the initiation of corrosion pits in 316L stainless steel', JOURNAL OF MATERIALS SCIENCE, 42 (16): 6866-6877 AUG 2007
2. Yibas, BS; Shuja, SZ; Arif, A; Gondal, MA, 'Laser-shock processing of steel', JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 135 (1): 6-17 APR 1 2003
3. Yilbas, BS; Arif, AFM; Shuja, SZ; Gondal, MA; Shirokof, J, 'Investigation into laser shock processing', JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 13 (1): 47-54 FEB 2004
4. Kaspar, J; Luft, A; Skrotzki, W, 'Deformation modes and structure evolution in laser-shock-loaded molybdenum single crystals of high purity', CRYSTAL RESEARCH AND TECHNOLOGY, 35 (4): 437-448 2000
5. Ohmura, E, 'Computer simulation of laser materials processing', INTERNATIONAL JOURNAL OF THE JAPAN SOCIETY FOR PRECISION ENGINEERING, 32 (4): 243-247 DEC 1998
6. Ko, SH; Pan, H; Hwang, DJ; Chung, J; Ryu, S; Grigoropoulos, CP; Poulikakos, D, 'High resolution selective multilayer laser processing by nanosecond laser ablation of metal nanoparticle films' JOURNAL OF APPLIED PHYSICS, 102 (9): Art. No. 093102 NOV 1 2007
7. Colombier, JP; Combis, P; Rosenfeld, A; Hertel, IV; Audouard, E; Stoian, R, 'Optimized energy coupling at ultrafast laser-irradiated metal surfaces by tailoring intensity envelopes: Consequences for material removal from Al samples', PHYSICAL REVIEW B, 74 (22): Art. No. 224106 DEC 2006
8. Yueyuan Xia, Liangmo Mei, Chunyu Tan, Xiangdong Liu, Qingpu Wang and Shubin Yue, 'Laser ablation of copper and aluminium in air', Appl. Phys. A 52 (1991) 0425-0432
9. K. Furusawa, K. Takahashi, H. Kumagai, K. Midorikawa and M. Obara, 'Ablation characteristics of Au, Ag, and Cu metals using a femtosecond Ti:sapphire laser', Appl. Phys. A 69 (1999) S359-S366
10. M.H. Hong and Y.F. Lu, 'Plasma diagnostics at early stage of laser ablation', Appl. Phys. A 69 (1999) S605-S608
11. E.M. Monge, C. Aragón and J.A. Aguilera, 'Space- and time-resolved measurements of temperatures and electron densities of plasmas formed during laser ablation of metallic samples', Appl. Phys. A 69 (1999) S691-S694
12. Y. Nakata, S. Gunji, T. Okada and M. Maeda, 'Fabrication of LiNbO3 thin films by pulsed laser deposition and investigation of nonlinear properties', Appl. Phys. A 79 (2004) 1279-1282
13. H. Furusawa, T. Sakka and Y. H. Ogata, 'Characterization of laser-induced plasma plume: Comparison between Al and Al2O3 targets', Appl. Phys. A 79 (2004) 1291-1294
14. X. Z. Zhao, L. J. Shen, T. X. Lu, and K. Niemax, 'Spatial distributions of electron density in microplasmas produced by laser ablation of solids', Appl. Phys. B 55 (1992) 0327-0330
15. W. Pietsch, B. Dubreuil, A. Briand, 'A study of laser-produced copper plasma at reduced pressure for spectroscopic applications', Appl. Phys. B 61 (1995) 0267-0275
16. N. Kawahara, J.L. Beduneau, T. Nakayama, E. Tomita and Y. Ikeda, 'Spatially, temporally, and spectrally resolved measurement of laser-induced plasma in air', Appl. Phys. B 86 (2007) 0605-0614
17. S. Svanberg, 'Laser based diagnostics – from cultural heritage to human health', Appl. Phys. B 92 (2008) 0351-0358
18. D. Karabourniotis, M. Ribiere, and B. G. Cheron, 'Electron temperature and density determination in a nonequilibrium laser induced plasma by means of self-reversed-line spectroscopy', Appl. Phys. Lett. 93 (2008) 041501
19. S. S. Harilal, Beau O'Shay, and Mark. S. Tillack, Manoj V. Mathew, 'Spectroscopic characterization of laser-induced tin plasma', J. Appl. Phys. 098 (2005) 013306
20. C. Aragón and J. A. Aguilera, 'Spatial and temporal scaling and common apparent excitation temperature of laser-induced plasmas generated at constant irradiance with different pulse energies', J. Appl. Phys. 103 (2008) 013310
21. M. Aghaei, S. Mehrabian, and S. H. Tavassoli, 'Simulation of nanosecond pulsed laser ablation of copper samples: A focus on laser induced plasma radiation', J. Appl. Phys. 104 (2008) 053303
22. Ajai Kumar, R. K. Singh, V. Prahlad, and H. C. Joshi, 'Comparative study of laser produced Li plasma plumes from thin film and solid target', J. Appl. Phys. 104 (2008) 093302
23. A Boulle, S Kilburger, P Di Bin, E Millon, C Di Bin, R Guinebretière and A Bessaudou, 'Role of nanostructure on the optical waveguiding properties of epitaxial LiNbO3 films', J. Phys. D Appl. Phys. 42 (2009) 145403
24. J S Cowpe, R D Pilkington, J S Astin and A E Hill, 'The effect of ambient pressure on laser-induced silicon plasma temperature, density and morphology', J. Phys. D Appl. Phys. 42 (2009) 165202
25. E.N. Dulov and D.M. Khripunov, 'Instrumental broadening of spectral line profiles due to discrete representation of a continuous physical quantity', Journal of Quantitative Spectroscopy & Radiative Transfer 109 (2008) 1922-1930
26. M A Hafez, M A Khedr, F F Elaksher and Y E Gamal, 'Characteristics of Cu plasma produced by a laser interaction with a solid target', Plasma Sources Sci. Technol. 12 (2003) 185-198
27. D Margarone, L Torrisi, A Borrielli and F Caridi, 'Silver plasma by pulsed laser ablation', Plasma Sources Sci. Technol. 17 (2008) 035019
28. J.A. Aguilera, C. Aragón, 'Characterization of laser-induced plasmas by emission spectroscopy with curve-of-growth measurements. Part I: Temporal evolution of plasma parameters and self-absorption', Spectrochimica Acta Part B Atomic Spectroscopy 63 (2008) 0784-0792
29. J.A. Aguilera, C. Aragón, 'Characterization of laser-induced plasmas by emission spectroscopy with curve-of-growth measurements. Part II: Effect of the focusing distance and the pulse energy', Spectrochimica Acta Part B Atomic Spectroscopy 63 (2008) 0793-0799
30. C. Aragón, J.A. Aguilera, 'Characterization of laser induced plasmas by optical emission spectroscopy: A review of experiments and methods', Spectrochimica Acta Part B Atomic Spectroscopy 63 (2008) 0893-0916