龐曉炎

自2014年5月至今在西北工業大學電子信息學院從教。

10/2009-11/2013：

在荷蘭代爾伏特理工大學和阿姆斯特丹自由大學攻讀博士，

在阿姆斯特丹自由大學進行博士答辯取得博士學位。

專業：物理光學

09/2007- 09/2009：

在西北工業大學電子信息學院攻讀碩士學位

專業：電磁場與微波技術

09/2003- 07/2007：

在西北工業大學電子信息學院攻讀學士學位

專業：電子信息工程

1. 《數理方程與特殊函式（英）》，本科國際班基礎課程；

2. 《高等電磁理論（英）》，研究生國際班專業課程；

3.《物理光學與套用光學》，本科專業選修課程；

4.《近代光學》，研究生專業選修課程；

另外，協助校講座教授Taco D. Visser的《Introduction to Modern Optics》,本科生綜合素養類課程。

納米條件下的光波與光子技術

結構光場/電磁場的特性

渦旋電磁波的傳輸與通信

相干理論

奇點光學理論

主持項目：

國家自然基金面上項目，11974281，2020/01-2023/12。

陝西省自然科學基礎研究計畫面上項目，2020JM-116，2020/01-2021/12。

橫向項目，多網通信控制器，2017MC080050，2017/06-2020/06。

國家自然基金青年科學基金項目，11504296，2016/01-2018/12。

陝西省自然科學基礎研究計畫青年人才項目，2016JQ1011，2016/01-2017/12。

中央高校基本科研業務費(自由探索類項目)，G2015KY0106，2015/03-2017/02。

W. Miao, X. Pang*, W. Liu,“Photonic Wheels and Their Topological Reaction in a Strongly Focused Amplitude Tailored Beam”, IEEE Photonics J. (2020) (accecpted).

X. Pang*, W. Liu, W. Miao, “Generation of Spiral Spin Density Vectors with a Circularly Polarized, Vortex

Beam”, IEEE Photonics J. vol. 12, No. 1. pp. 1-14 (2020).

X. Zhao, X. Pang*，G. Wan, “Tunable degree of polarization of an unpolarized, partially coherent beam with circular coherence in a high numerical aperture system”， Opt. Lett.，Vol. 44, No. 22. pp. 5574-5577 (2019).

J. Li, X. Pang*, Z. Hu, "Multi-network Communication Gateway of IoT for Complex Environment"[C]//International Conference on Internet of Things as a Service. Springer, Cham, 2018: 120-126.

X. Pang* and W. Miao,“Spinning spin density vectors along the propagation direction”,Opt. Lett., vol. 43, No. 19, pp. 4831-4834 (2018).

X. Pang*, J. Cheng, and X. Zhao, "Polarization dynamics on optical axis ", Opt. Commun. vol.421, pp. 50-55 (2018)

X. Zhao, X. Pang*, J. Zhang, and G. Wan, “Transverse Focal Shift in Vortex Beams”, IEEE Photonics J., ol. 10, No. 1, p. 6500417 (2018).

X. Liu, G. Wu, X. Pang, D. Kuebel and T.D. Visser*, “Polarization and coherence in the Hanbury Brown–Twiss effect”, J. Mod. Opt., accepted and published on line (2018).

G. Wu* and X. Pang, “Self-Healing Properties of Partially Coherent Schell-Model Beams”, IEEE Photonics J., vol. 9, No. 6, p. 6501311 (2017).

J. Zhang, X. Pang* and J. Ding, “Wavefront spacing and Gouy phase in strongly focused fields: the role of polarization”, J. Opt. Soc. Am. A. vol. 34, no. 7, pp. 1132-1138 (2017).

X. Zhao, J. Cheng, X. Pang* and G. Wan, “Properties of a strongly focused Gaussian beam with an off-axis vortex”, Opt. Commun., vol. 389, pp. 275-282 (2017).

X. Pang*, “Gouy phase and phase singularities of tightly focused, circularly polarized vortex beams,” Opt. Commun.vol.338, pp. 534-539 (2015).

X. Pang*, G. Gbur and T.D. Visser, “Cycle of phase, coherence and polarization singularities in Young’s three-pinhole experiment,” Opt. Express, vol. 23, pp. 34093-34108 (2015).

X. Pang, D.G. Fischer and T.D. Visser*, “Wavefront spacing and the Gouy phase in the presence of spherical aberration,” Opt. Lett. 39, pp.88-91 (2014).

X. Pang and T.D. Visser*, “Manifestation of the Gouy phase in strongly focused, radially polarized beams,” Opt. Express, vol. 21, pp. 8331-8341 (2013).

X. Pang, D.G. Fischer and T.D. Visser*, “Generalized Gouy phase for focused, partially coherent light and its implications for optical metrology,” J. Opt. Soc. Am. A., vol. 29, pp. 989-993 (2012).

X. Pang, T.D. Visser* and E. Wolf, “Phase anomaly and phase singularities of the field in the focal region of high-numerical aperture systems,” Opt. Commun., vol. 284, pp. 5517-5522 (2011).

X. Pang, G. Gbur and T.D. Visser*, “The Gouy phase of Airy beams,” Optics Letters, vol. 36, pp. 2492-2494 (2011).