[1] C. H. Bulmer, W. K. Burns, and R. P. Moeller, “Linear interferometric waveguide modulator for electromagnetic-field detection,” Optics Letters, 1980, 5(5): 176-178.
[2] N. Kuwabara, K. Tajima, R. Kobayashi, and F. Amemiya, “Development and analysis of electric field sensor using LiNbO3 optical modulator,” IEEE Transactions on Electromagnetic Compatibility, 1992, 34(4): 391-396.
[3] T. Meier, C. Kostrzewa, K. Petermann, and B. Schuppert, “Integrated optical E-field probes with segmented modulator electrodes,” Journal of Lightwave Technology, 1994, 12(8): 1497-1502.
[4] B. Sun, F. Chen, K. Chen, Z. Hu, and Y. Cao, “Integrated optical electric field sensor from 10 kHz to 18 GHz,” IEEE Photonics Technology Letters, 2012, 24(13): 1106-1108.
[5] D. Nitsch, M. Camp, F. Sabath, J. L. Haseborg, and H. Garbe, “Susceptibility of some electronic equipment to HPEM threats,” IEEE Transactions on Electromagnetic Compatibility, 2004, 46(3): 380-389.
[6] F. Banakhr, B. M. Novac, and I. R. Smith, “Electro- optic Kerr effect measurements of intense pulsed electric fields in water,” in Proceeding of IEEE Pulsed Power Conference, Chicago, USA, June 19-23, pp. 328-333, 2011.
[7] T. Takahashi, “Electric field measurement just beneath a surface discharge by optical-waveguide pockels sensors,” Electronic Engineering in Japan, 2003, 145(2): 28-34.
[8] R. C. Alferness, “Waveguide electro optic modulators,” IEEE Transactions on Microwave Theory Techniques, 1982, 30: 1121-1137.
[9] J. P. Salvestrini, L. Guilbert, and M. Fontana, “Analysis and control of the DC drift in LiNbO3-based Mach-Zehnder modulators,” Journal of Lightwave Technology, 2011, 29(10): 1522-1534.
[10] J. Zhang, F. Chen, B. Sun, and C. Li, “A novel bias angle control system for LiNbO3 photonic sensor using wavelength tuning,” IEEE Photonics Technology Letters, 2013, 25(20): 1993-1995.
[11] B. Sun and F. Chen, “Experimental investigation of integrated optical intensive impulse electric field sensors,” Chinese Physics Letters, 2009, 26(2): 024212.