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COLLEGE OF ARTS AND SCIENCES

Publications

research group of willie j. padilla

ISI Researcher ID A-7235-2008
Scopus Author ID 6603594974
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Journal Papers

70. Dynamic Manipulation of Infrared Radiation with MEMS Metamaterials
Xianliang Liu and Willie J. Padilla, Advanced Optical Materials 1, 559 (2013).

69. Terahertz single pixel imaging with an optically controlled dynamic spatial light modulator
David Shrekenhamer, Claire M. Watts, and Willie J. Padilla, Optics Express 21, 12507 (2013).

68. A Subwavelength Extraordinary-Optical-Transmission Channel in Babinet Metamaterials
W.-C. Chen, N.I. Landy, K. Kempa and W.J. Padilla, Advanced Optical Materials 1, 177403 (2013).

67. Liquid Crystal Tunable Metamaterial Absorber
David Shrekenhamer, Wenchen Chen and Willie J. Padilla, Physical Review Letters 110, 177403 (2013).

66. THz Wave Modulators: A Brief Review on Different Modulation Techniques
Marco Rahm, Jiu-Sheng Li and Willie J. Padilla, J Infrared Milli Terahz Waves 34, 1-27 (2013).

65. Experimental Realization of a Metamaterial Detector Focal Plane Array
David Shrekenhamer, Wangren Xu, Suresh Venkatesh, David Schurig, Sameer Sonkusale, and Willie J. Padilla, Phys. Rev. Lett. 109, 177401 (2012).

64. Loss compensation in Metamaterials through embedding of active transistor based negative differential resistance circuits
Wangren Xu, Willie J. Padilla, Sameer Sonkusale, Opt. Exp. 20, 22406 (2012).

63. Metamaterial Electromagnetic Wave Absorbers
Claire M. Watts, Xianliang Liu, Willie J. Padilla, Advanced Materials 24, OP98 (2012).

62. Extremely subwavelength planar magnetic metamaterials
W.-C. Chen, C. M. Bingham, K. M. Mak, N. W. Caira, and W. J. Padilla, Phys. Rev. B 85, 201104(R) (2012).

61. Magnetic levitation of metamaterial bodies enhanced with magnetostatic surface resonances
Yaroslav Urzhumov, Wenchen Chen, Chris Bingham, Willie Padilla, and David R. Smith, Phys. Rev. B 85, 054430 (2012).

60. Single-layer terahertz metamaterials with bulk optical constants
W.-C. Chen, A. Totachawattana, K. Fan, J. L. Ponsetto, A. C. Strikwerda, X. Zhang, R. D. Averitt, and W. J. Padilla, Phys. Rev. B 85, 035112 (2012).

59. Broadband Optical Antireflection Enhancement by Integrating Antireflective Nanoislands with Silicon Nanoconical-Frustum Arrays
Haesung Park, Dongheok Shin, Gumin Kang, Seunghwa Baek, Kyoungsik Kim, Willie J. Padilla, Advanced Materials 23, 5796 (2011).

58. Microwave and Terahertz wave sensing with metamaterials
Hu Tao, Emil A. Kadlec, Andrew C. Strikwerda, Kebin Fan, Willie J. Padilla, Richard D. Averitt, Eric A.Shaner and X. Zhang, Opt. Exp. 19, 21620 (2011).

57. Extreme subwavelength electric GHz metamaterials
P. W. Kolb, T. S. Salter, J. A. McGee, H. D. Drew, and W. J. Padilla, J. Appl. Phys. 110, 054906 (2011).

56. Taming the Blackbody with Infrared Metamaterials as Selective Thermal Emitters
Xianliang Liu, Talmage Tyler, Tatiana Starr, Anthony F. Starr, Nan Marie Jokerst, and Willie J. Padilla, Phys. Rev. Lett. 107, 045901 (2011).

55. High speed terahertz modulation from metamaterials with embedded high electron mobility transistors
David Shrekenhamer, Saroj Rout, Andrew C. Strikwerda, Chris Bingham, Richard D. Averitt, SameerSonkusale and Willie J. Padilla, Opt. Exp. 19, 9968 (2011).

54. MEMS Based Structurally Tunable Metamaterials at Terahertz Frequencies
Hu Tao, Andrew C. Strikwerda, Kebin Fan, Willie J. Padilla, Xin Zhang and Richard Douglas Averitt, J Infrared Milli Terahz Waves 32, 580 (2011).

53. Recent Progress in Electromagnetic Metamaterial Devices for Terahertz Applications
Hu Tao, Willie J. Padilla, Xin Zhang, and Richard D. Averitt, IEEE J Sel Topics in Quantum Elec. 17, 92 (2011).

52. Performance enhancement of terahertz metamaterials on ultrathin substrates for sensing applications
Hu Tao, Andrew C. Strikwerda, Mengkun Liu, Jessica P. Mondia, Evren Ekmekci, Kebin Fan, David L. Kaplan, Willie J. Padilla, Xin Zhang, Richard D. Averitt and Fiorenzo G. Omenetto, Appl. Phys. Lett. 97, 261909 (2010).

51. Percolation and polaritonic effects in periodic planar nanostructures evolving from holes to islands
Y. Peng, T. Paudel, W.-C. Chen, W. J. Padilla, Z. F. Ren, and K. Kempa, Appl. Phys. Lett. 97, 041901 (2010).

50. High performance optical absorber based on a plasmonic metamaterial
Jiaming Hao, Jing Wang, Xianliang Liu, Willie J. Padilla, Lei Zhou, and Min Qiu, Appl. Phys. Lett. 96, 251104 (2010).

49. A dual band terahertz metamaterial absorber
Hu Tao, C M Bingham, D Pilon, Kebin Fan, A C Strikwerda, D Shrekenhamer, W J Padilla, Xin Zhang and R D Averitt, Journal of Physics D: Applied Physics 43, 225102 (2010).

48. Elimination of phase singularity to achieve superresolution in lossy metamaterials
Kwangchil Lee, Youngjean Jung, Willie J. Padilla, and Kyoungsik Kim, Optics Express 18, 12269 (2010).

47. High performance optical absorber based on a plasmonic metamaterial
Jiaming Hao, Jing Wang, Xianliang Liu, Willie J. Padilla, Lei Zhou, and Min Qiu, Applied Physics Letters96, 251104 (2010).

46. Infrared Spatial and Frequency Selective Metamaterial with Near-Unity Absorbance
Xianliang Liu, Tatiana Starr, Anthony F. Starr, and Willie J. Padilla, Physical Review Letters 104, 207403 (2010).

45. Possibility of magnetic-field-induced reconstruction of the Fermi surface in underdoped cuprates: Constraints from infrared magneto-optics
A. D. LaForge, A. A. Schafgans, S. V. Dordevic, W. J. Padilla, K. S. Burch, Z. Q. Li, Kouji Segawa, Seiki Komiya, Yoichi Ando, J. M. Tranquada, and D. N. Basov, Physical Review B 81, 64510 (2010).

44. Towards a Two-Dimensional Superconducting State of La2-xSrxCuO4 in a Moderate External Magnetic Field
A. A. Schafgans, A. D. LaForge, S.V. Dordevic, M. M. Qazilbash, W. J. Padilla, K. S. Burch, Z. Q. Li, Seiki Komiya, Yoichi Ando, and D. N. Basov, Physical Review Letters 104, 157002 (2010).

43. Metamaterials on parylene thin film substrates: Design, fabrication and characterization at THz frequencies
X. Liu, S. MacNaughton, D. B. Shrekenhamer, H. Tao, R. D Averitt, M. R. Dokmeci, S. Sonkusale and W. J. Padilla, Applied Physics Letters 96, 011906 (2010).

42. Guiding light with conformal transformations
Nathan I. Landy and Willie J. Padilla, Optics Express 17, 14872 (2009).

41. Large-area metamaterials on thin membranes for multilayer and curved applications at terahertz and higher frequencies
X. G. Peralta, M. C. Wanke, C. L. Arrington, J. D. Williams, I. Brener, A. Strikwerda, R. D. Averitt, W. J. Padilla, E. Smirnova, A. J. Taylor, and J. F. O’Hara, Applied Physics Letters 94, 161113 (2009).

40.  Magnetic field induced modification of superfluid density and interplane spectral weight in YBa2Cu3Oy A. D. LaForge, W. J. Padilla, K. S. Burch, Z. Q. Li, A. A. Schafgans, Kouji Segawa, Yoichi Ando, and D. N. Basov, Phys. Rev. B 79, 104516 (2009).

39. A metamaterial solid-state terahertz phase modulator
Hou-Tong Chen, Willie J. Padilla, Michael J. Cich, Abul K. Azad, Richard D. Averitt, and Antoinette J. Taylor, Nature Photonics 3, 148 (2009).

38. Design, theory, and measurement of a polarization-insensitive absorber for terahertz imaging N. I. Landy, C. M. Bingham, T. Tyler, N. Jokerst, D. R. Smith, and W. J. Padilla, Physical Review B 79, 125104 (2009).

37. Highly-flexible wide angle of incidence terahertz metamaterial absorber Hu Tao, C. M. Bingham, A. C. Strikwerda, D. Pilon, D. Shrekenhamer, N. I. Landy, K. Fan, X. Zhang, W. J. Padilla, and R. D. Averitt, Physical Review B Rapid Communications 78, 241103R (2008).

36. Terahertz metamaterials on free-standing highly-flexible polyimide substrates Hu Tao, A. C. Strikwerda, K. Fan, C. M. Bingham, W. J. Padilla, Xin Zhang and R. D. Averitt, J. Phys. D: Appl. Phys. 41, 232004 (2008).

35. Planar wallpaper group metamaterials for novel terahertz applications Christopher M. Bingham, Hu Tao, Xianliang Liu, Richard D. Averitt, Xin Zhang, and Willie J. Padilla, Optics Express 16, 18565 (2008).

34. A dual-resonant terahertz metamaterial based on single-particle electric-field-coupled resonators
Yu Yuan, Christopher Bingham, Talmage Tyler, Sabarni Palit, Thomas H. Hand, Willie J. Padilla, Nan Marie Jokerst, and Steven A. Cummer, Applied Physics Letters 93, 191110 (2008).

33. Hybrid metamaterials enable fast electrical modulation of freely propagating terahertz waves
Hou-Tong Chen, Sabarni Palit, Talmage Tyler, Christopher M. Bingham, Joshua M. O. Zide, John F. O’Hara, David R. Smith, Arthur C. Gossard, Richard D. Averitt, Willie J. Padilla, Nan M. Jokerst, and Antoinette J. Taylor, Applied Physics Letters 93, 091117 (2008).

32. Sum rules and interlayer infrared response of the high temperature YBa2Cu3Oy superconductor in an external magnetic field
A. D. LaForge, W. J. Padilla, K. S. Burch, Z. Q. Li, A. A. Schafgans, Kouji Segawa, Yoichi Ando, and D. N. Basov, Physical Review Letters 101, 097008 (2008).

31. Dual-band planar electric metamaterial in the terahertz regime Yu Yuan, Christopher Bingham, Talmage Tyler, Sabarni Palit, Thomas H. Hand, Willie J. Padilla, David R. Smith, Nan Marie Jokerst, and Steven A. Cummer, Optics Express 16, 9746 (2008).

30. A metamaterial absorber for the terahertz regime: Design, fabrication and characterization
Hu Tao, Nathan I. Landy, Christopher M. Bingham, Xin Zhang, Richard D. Averitt, and Willie J. Padilla, Optics Express 16, 7181 (2008).

29. Perfect Metamaterial Absorber
N. I. Landy, S. Sajuyigbe, J. J. Mock, D. R. Smith, and W. J. Padilla, Physical Review Letters 100, 207402 (2008).

28. Experimental Demonstration of Frequency Agile Terahertz Metamaterials
Hou-Tong Chen, John F. O'Hara, Abul K. Azad, and Antoinette J. Taylor, Richard D. Averitt, D. Shrekenhamer and Willie J. Padilla, Nature Photonics 2, 295 (2008).

27. Ultrafast Optical Switching of Terahertz Metamaterials Fabricated on ErAs/GaAs Nanoisland Superlattices
H.-T. Chen, W.J. Padilla, J.M.O. Zide, S.R. Bank, A.C. Gossard, A.J. Taylor, and R.D. Averitt, Optics Letters 32, 1620 (2007).

26. A new class of metamaterials
Willie J. Padilla, Nature Materials 6, 922 (2007).

25. Properties of planar electric metamaterials for novel terahertz applications
John F. O’Hara, Evgenya Smirnova, Hou-Tong Chen, A. J. Taylor, R. D. Averitt, Clark Highstrete, Mark Lee, and Willie J. Padilla. J. Nanoelectron. Optoelectron. 2, 90 (2007).

24. Electrically resonant terahertz metamaterials: Theoretical and experimental investigations
W. J. Padilla, M. T. Aronsson, C. Highstrete, Mark Lee, A. J. Taylor and R. D. Averitt. Physical Review B Rapids 75, 041102R (2007).

23. Group theoretical description of artificial electromagnetic metamaterials
W. J. Padilla. Optics Express 15, 1639 (2007).

22. Complementary planar terahertz metamaterials
Hou-Tong Chen, John F. O’Hara, Antoinette J. Taylor, Richard D. Averitt, C. Highstrete, Mark Lee, and Willie J. Padilla, Optics Express 15, 1084 (2007).

21. Terahertz Plasmon Composites S. C. Nemat-Nasser, A. V. Amirkhizi, W. J. Padilla, D. N. Basov, S. Nemat-Nasser, D. Bruzewicz and G. Whitesides. Physical Review E 75, 036614 (2007).

20. Electromagnetic characterization of planar metamaterials by oblique angle spectroscopic measurements
T. Driscoll, D.N. Basov, W.J. Padilla, J.J. Mock, and D. R. Smith. Physical Review B, 75, 115114 (2007).

19. Interlayer electrodynamics and unconventional vortex state in YBa2Cu3Oy A. D. LaForge,, W. J. Padilla,, K. S. Burch,, Z. Q. Li, S. V. Dordevic, Kouji Segawa, Yoichi Ando, and D. N. Basov. Physical Review B, 76, 054524 (2007).

18. Active terahertz metamaterial devices W. J. Padilla, H.-T. Chen, J.M.O. Zide, A.C. Gossard, A.J. Taylor, and R.D. Averitt. Nature 444, 597 (2006).

17. Negative refractive index metamaterials
W. J. Padilla, D. N. Basov, and D. R. Smith. Materials Today 9, (No 7-8) 28 (2006).

16. Dynamical Electric and Magnetic Metamaterial Response at Terahertz Frequencies W. J. Padilla, A. J. Taylor, C. Highstrete, Mark Lee, and R. D. Averitt, Physical Review Letters 96, 107401 (2006).

15. Spectroscopy of metamaterials from infrared to optical frequencies
Willie J. Padilla, David R. Smith, and Dimitri N. Basov, Journal of the Optical Society America B 23, 404 (2006).

14. Calculation and measurement of bianisotropy in a split ring resonator metamaterial
D. R. Smith, J. Gollub, J. J. Mock, W. J. Padilla, and D. Schurig. Journal of Applied Physics 100, 024507 (2006).

13. Infrared probe of the anomalous magnetotransport of highly oriented pyrolytic graphite in the extreme quantum limit Z. Q. Li, S.-W. Tsai, W. J. Padilla, S. V. Dordevic, K. S. Burch, Y. J. Wang, and D. N. Basov. Physical Review B 74, 195404 (2006).

12. Strong-coupling effects in cuprate high-Tc superconductors by magneto-optical studies
Y. S. Lee, Z. Q. Li, W. J. Padilla, S. V. Dordevic, C. C. Homes, K. Segawa, Yoichi Ando, and D. N. Basov. Physical Review B. 72, 172511 (2005).

11. Infrared signatures of hole and spin stripes in La2-xSrxCuO4
W. J. Padilla M. Dumm, Seiki Komiya Yoichi Ando, and D. N. Basov. Physical Review B 72, 205101 (2005).

10. Constant effective mass across the phase diagram of high-Tc cuprates W. J. Padilla, Y. S. Lee, M. Dumm, G. Blumberg, S. Ono, Kouji Segawa, Seiki Komiya, Yoichi Ando, and D. N. Basov. Physical Review B 72, 060511 (2005).

9. Electrodynamics of the nodal metal state in weakly doped high-Tc cuprates
Y. S. Lee, Kouji Segawa, Z. Q. Li, W. J. Padilla, M. Dumm, S. V. Dordevic, C. C. Homes, Yoichi Ando, and D. N. Basov. Physical Review B 72, 054529 (2005).

8. THz magnetic response from artificial materials
W. J. Padilla, Ta-Jen Yen, Nicholas Fang, D. N. Basov, D. Vier, D. R. Smith, J. B. Pendry, and Xiang Zhang. Science 303, 1494 (2004).

7. Broadband multi-interferometer spectroscopy in high magnetic fields: From THz to visible
W. J. Padilla, Z. Q. Li, K. S. Burch, Y. S. Lee, K. J. Mikolaitis, and D. N. Basov. Review of Scientific Instruments 75, 4710 (2004).

6. Subterahertz spectroscopy at He-3 temperatures
D. N. Basov, S. V. Dordevic, E. J. Singley, W. J. Padilla, K. Burch, J. E. Elenewski, L. H. Greene, J. Morris and R. Schickling. Review of Scientific Instruments 74, 4703 (2003).

5. Ferromagnetic resonance in double perovskite Ba2FeMoO6 A. G. Flores, M. Zazo, J.  Iniguez, V. Raposo, C. de Francisco, J. M. Munoz, and W. J. Padilla. Journal of Magnetism and Magnetic Materials 254-255, 583 (2003).

4. Terahertz plasmonic high pass filter
D. Wu, N. Fang, C. Sun, X. Zhang, W. J. Padilla, D. N. Basov, D. R. Smith, and S. Schultz. Applied Physics Letters 83, 201 (2003).

3. Searching for the Slater transition in the pyrochlore Cd2Os2O7  with infrared spectroscopy W. J. Padilla, D. Mandrus, D. N. Basov. Physical Review B 66, 035120 (2002).

2. Composite medium with simultaneously negative permeability and permittivity D. R. Smith, Willie J. Padilla, D. C. Vier, S. C. Nemat-Nasser, S. Schultz. Physical Review Letters 84, 4184 (2000).

1. Loop-wire medium for investigating plasmons at microwave frequencies
D. R. Smith, D. C. Vier, Willie Padilla, Syrus C. Nemat-Nasser, S. Schultz. Applied Physics Letters 75, 1425 (1999).

Conference Papers

3. Infrared spectroscopy and ellipsometry of magnetic metamaterials
Willie J. Padilla, Ta-Jen Yen, Nicholas Fang, David C. Vier, David R. Smith, John B. Pendry, Xiang Zhang, and D. N. Basov. Proc. SPIE Vol. 5732, p. 460, (2005). Quantum Sensing and Nanophotonic Devices II; Manijeh Razeghi, Gail J. Brown; Eds.

2. Negative permeability from split ring resonator arrays
D. R. Smith, W. J. Padilla, D. C. Vier, S. C. Nemat-Nasser, S. Schultz. Conference Digest. 2000 Conference on Lasers and Electro-Optics Europe, Nice, France, 10-15 Sept. 2000. Piscataway, NJ, USA: IEEE, 2000. p.1 pp. xii+394 pp.

1. Photonic Crystals and Light Localization
D. R. Smith, W. J. Padilla, D. C. Vier, R. Shelby, S. C. Nemat-Nasser, N. Kroll and S. Schultz. , ed. C. M. Soukoulis (Kluwer, Netherlands, 2000).

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