APA
Liu M., Susli M., Silva D., Putrino G., Kala H., Fan S., Cole M., Faraone L., Wallace V. P., Padilla W. J., Powell D. A., Shadrivov I. V. & Martyniuk M. (2017). Ultrathin tunable terahertz absorber based on MEMS-driven metamaterial. : Microsystems & nanoengineering.
Chicago
Liu Mingkai, Susli Mohamad, Silva Dilusha, Putrino Gino, Kala Hemendra, Fan Shuting, Cole Michael, Faraone Lorenzo, Wallace Vincent P, Padilla Willie J, Powell David A, Shadrivov Ilya V and Martyniuk Mariusz. 2017. Ultrathin tunable terahertz absorber based on MEMS-driven metamaterial. : Microsystems & nanoengineering.
Harvard
Liu M., Susli M., Silva D., Putrino G., Kala H., Fan S., Cole M., Faraone L., Wallace V. P., Padilla W. J., Powell D. A., Shadrivov I. V. and Martyniuk M. (2017). Ultrathin tunable terahertz absorber based on MEMS-driven metamaterial. : Microsystems & nanoengineering.
MLA
Liu Mingkai, Susli Mohamad, Silva Dilusha, Putrino Gino, Kala Hemendra, Fan Shuting, Cole Michael, Faraone Lorenzo, Wallace Vincent P, Padilla Willie J, Powell David A, Shadrivov Ilya V and Martyniuk Mariusz. Ultrathin tunable terahertz absorber based on MEMS-driven metamaterial. : Microsystems & nanoengineering. 2017.