Andong WANG - Publications

PEER-REVIEW JOURNALS

Publication on Semiconductor Fabrication

10. Hugo Quard, Mario Khoury, Andong Wang, Tobias Herzig, Jan Meijer, Sebastian Pezzagna, Sébastien Cueff, David Grojo, Marco Abbarchi, Hai Son Nguyen, Nicolas Chauvin, Thomas Wood, Femtosecond laser induced creation of G and W-centers in silicon-on-insulator substrates [Arxiv]

9. A. Das, A. Wang*, O. Uteza, D. Grojo*. Internal structuring of gallium arsenide using short laser pulses. Optics Express, 30(21), 39101-39110. 2022. [Open Access]

8. A. Wang, P. Sopena, D. Grojo. Burst mode enabled ultrafast laser inscription inside Gallium Arsenide. International Journal of Extreme Manufacturing. 4:045001, 2022. [Open Access]

Reported by Eurekalert, TechXplore, Photonics, Laser Focus World

7. P. Sopena, A. Wang, A. Mouskeftaras, D. Grojo*. Transmission Laser Welding of Similar and Dissimilar Semiconductor Materials. Laser Photonics Review. 16(11):2200208, 2022. [Open Access]

Reported by Phys.org

6. P. Sopena*, M. García-Lechuga, A. Wang. D. Grojo., “Ultrafast laser stabilization by nonlinear absorption for enhanced-precision material processing”, Opt. Lett. 47(4): 993-996 (2022). (Link) [PDF]

5. Wang, A., Das, A., Hermann, J., Grojo, D. (2021). Three-dimensional luminescence microscopy for quantitative plasma characterization in bulk semiconductors. Applied Physics Letters. 119, 041108 (2021) (Link) [PDF]

-<Selected as Editor's Pick>

-Conference vedio on youtube: 12 min

4. Garcia‐Lechuga, M., Casquero, N., Wang, A., Grojo, D., & Siegel, J. (2021). Deep Silicon Amorphization Induced by Femtosecond Laser Pulses up to the Mid‐Infrared. Advanced Optical Materials, 2100400. (Link) [Open Acess]

3. Das, A., Wang, A.*, O. Uteza, & Grojo, D*. (2020) Pulse-duration dependence of laser-induced modifications inside silicon. Optics Express. (Link) [Open Acess]

2. Wang, A., Das, A., & Grojo, D. (2020). Temporal-contrast imperfections as drivers for ultrafast laser modifications in bulk silicon. Physical Review Research, 2020. [Link] [Open Acess]

1. Wang, A., Das, A., & Grojo, D. (2020). Ultrafast Laser Writing Deep inside Silicon with THz-Repetition-Rate Trains of Pulses. Research (First Science Partner Journal), 2020, 8149764. [Link] [Open Acess]

-Reported by ScienceX, ScienceAAAS Wechat Account(in Chinese)

-Poster POM on Twitter,

Publication on Quantum chip

Low Cross-Talk Optical Addressing of Trapped-Ion Qubits Using a Novel Integrated Photonic Chip, 2023. https://arxiv.org/abs/2310.13419

Publication on Semiconductor Fabrication

1. Wang, A., Jiang, L., Li, X., Liu, Y., Dong, X., Qu, L., Duan, X., Lu, Y. (2015). Mask‐Free Patterning of High‐Conductivity Metal Nanowires in Open Air by Spatially Modulated Femtosecond Laser Pulses. Advanced Materials, 27(40), 6238-6243. [Link]

Reported in SPIE Photonics West, SPIE AOT.

2. Jiang, L., Wang, A., Li, B., Cui, T., Lu, Y. (2017) Electrons Dynamics Control by Shaping Femtosecond Laser Pulses in Micro/Nano Fabrication: Modeling, Method, Application, and Measurement. Light: Science & Applications, 7, e17134. (Review Article) [Link] [Open Acess]

Selected as Top Cited & Downloaded Papers of Light: Science & Applications; ESI hot paper

3. Wang, A., Jiang, L., Li, X., Li, B., Lu, Y. (2016) Low-adhesive superhydrophobic surface enhanced Raman substrate fabricated by femtosecond laser direct ablation for ultratrace molecular detection. Journal of Materials Chemistry B, 5(4): 777-784. [Link]

Reported in Ph.D. academics forum 2016, Best Oral Presentation Award.

4. Wang, A., Jiang, L., Li, X., Xu J., Lu Y. (2017) Nanoscale material redistribution induced by spatially modulated laser pulses for high-efficiency surface patterning. Optics Express, 25,31431. [Link] [Open Acess]

5. Wang, A., Jiang, L., Li, X., Wang Z., Du K., Lu Y. (2017) Simple and robust generation of ultrafast laser pulse trains using polarization-independent parallel-aligned thin films. Optics Laser Technology,101,289. [Link]

6. Wang, A., Jiang, L., Li, X., Huang, J., Xu, Z., Wang, Z., & Yao, Z. (2021). Functionalization of freeform curved surfaces by shaped femtosecond laser pulses in the propagation axis. Optics Express, 29(4), 5487-5496. [link] [Open Acess]

Other papers (Not full list):

7. Cao, W., Jiang, L., Hu, J., Wang, A., Li, X., Lu, Y. Optical Field Enhancement in Au Nanoparticle-Decorated Nanorod Arrays Prepared by Femtosecond Laser and Their Tunable SERS Applications. ACS Applied Materials & Interface. 2017.[Link]

8. Mao, Z., Cao, W., Hu, J., Jiang, L., Wang, A., Li, X., Cao, J., Lu, Y. A dual-functional surface with hierarchical micro/nanostructure arrays for self-cleaning and antireflection. RSC Advances. 2017.(In Press)

9. Li, X., Xie, Q., Jiang, L., Han, W., Wang, Q., Wang, A., Hu, J., Lu, Y. (2017).Controllable Si (100) micro/nanostructures by chemical-etching-assisted femtosecond laser single-pulse irradiation. Applied Physics Letters,110, 181907.

10. Wang, Z., Jiang, L., Li, X., Wang, A., Yao, Z., Zhang, K., Lu, Y.(2017)High-throughput microchannels fabrication in fused silica by temporally shaped femtosecond laser Bessel beam assisted chemical etching. Optics Letters. 43(1),98-101.

10. Ji, X., Jiang, L., Li, X., Han, W., Liu, Y., Wang, A., & Lu, Y. (2015). Femtosecond laser-induced cross-periodic structures on a crystalline silicon surface under low pulse number irradiation. Applied Surface Science, 326, 216-221. (IF: 3.4)

11. Tan, X., Jiang, L., Hu, J., Liu, P., Wang, A., & Lu, Y. (2015). Highly sensitive and homogeneous SERS substrate fabricated by a femtosecond laser combined with dewetting. Chinese Optics Letters, 13(11), 111401. (IF: 1.8)