Design, Optimization and Fabrication of a 28.3 THz Nano-Rectenna for Infrared Detection and Rectification

The increasing energy demands of the world's population and the quickly diminishing fossil fuel reserves together suggest the urgent need to secure long-lasting alternative and renewable energy resources. Here, we present a THz antenna integrated with a rectifier (rectenna) for harvesting infrared energy. We demonstrate a resonant bowtie antenna that has been optimized to produce highly enhanced localized fields at the bow tip. To benefit from this enhancement, the rectifier is realized between the overlapped antenna's arms using a 0.7 nm copper oxide. The thin film diode offers low zero bias resistance of 500 Ω, thus improving the impedance matching with the antenna. In addition, the rectenna prototype demonstrates high zero bias responsivity (4 A/W), which is critical in producing DC current directly from THz signals without the application of an external electric source, particularly for energy harvesting applications.

[1]  J. Hafner,et al.  Optical properties of star-shaped gold nanoparticles. , 2006, Nano letters.

[2]  Lukas Novotny,et al.  Effective wavelength scaling for optical antennas. , 2007, Physical review letters.

[3]  Carlo Sirtori,et al.  Strong near field enhancement in THz nano-antenna arrays , 2013, Scientific Reports.

[4]  Fei Le,et al.  Nanorice: a hybrid plasmonic nanostructure. , 2006, Nano letters.

[5]  A. Boccara,et al.  Near-field optical microscope based on local perturbation of a diffraction spot. , 1995, Optics letters.

[6]  Sachit Grover,et al.  Graphene geometric diodes for terahertz rectennas , 2013 .

[7]  Edward C. Kinzel,et al.  Design of an MOM diode‐coupled frequency‐selective surface , 2013 .

[8]  Ivar Giaever,et al.  Tunneling Through Thin Insulating Layers , 1961 .

[9]  J A Bean,et al.  Performance Optimization of Antenna-Coupled ${\rm Al}/{\rm AlO}_{x}/{\rm Pt}$ Tunnel Diode Infrared Detectors , 2011, IEEE Journal of Quantum Electronics.

[10]  S. Maier Plasmonics: Fundamentals and Applications , 2007 .

[11]  William C. Brown,et al.  Optimization of the Efficiency and Other Properties of the Rectenna Element , 1976 .

[12]  O. Martin,et al.  Engineering the optical response of plasmonic nanoantennas. , 2008, Optics express.

[13]  M. Grätzel,et al.  A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films , 1991, Nature.

[14]  Gordon S. Kino,et al.  Field enhancement and gap-dependent resonance in a system of two opposing tip-to-tip Au nanotriangles , 2005 .

[15]  A. Parretta,et al.  Electrical and Optical Properties of Copper Oxide Films Prepared by Reactive RF Magnetron Sputtering , 1996 .

[16]  Coherently controlled femtosecond energy localization on nanoscale , 2002 .

[17]  Ingrid Wilke,et al.  Nanometer thin-film Ni-NiO-Ni diodes for 30 THz radiation , 1994 .

[18]  S Schultz,et al.  Non‐regularly shaped plasmon resonant nanoparticle as localized light source for near‐field microscopy , 2001, Journal of microscopy.

[19]  David J. Bergman,et al.  Coherent control of nanoscale localization of ultrafast optical excitation in nanosystems , 2004 .

[20]  T.-W. Yoo,et al.  Theoretical and experimental investigation of a rectenna element for microwave power transmission , 1992 .

[21]  Javier Alda,et al.  The effect of metal dispersion on the resonance of antennas at infrared frequencies , 2009 .

[22]  V. J. Kapoor,et al.  Submicron nickel‐oxide‐gold tunnel diode detectors for rectennas , 1989 .

[23]  Juan Sebastian Gómez Díaz,et al.  Reconfigurable THz Plasmonic Antenna Concept Using a Graphene Stack , 2012, 1210.8057.

[24]  R. Holm The Electric Tunnel Effect across Thin Insulator Films in Contacts , 1951 .

[25]  Paul K. L. Yu,et al.  Nanoparticle-induced light scattering for improved performance of quantum-well solar cells , 2008 .

[26]  P. Ajayan,et al.  Gated tunability and hybridization of localized plasmons in nanostructured graphene. , 2013, ACS nano.

[27]  Deren Yang,et al.  Fabrication of Ni-NiO-Cu Metal-Insulator-Metal Tunnel Diodes via Anodic Aluminum Oxide Templates , 2012 .

[28]  Subramanian Krishnan,et al.  Design and development of batch fabricatable metal–insulator–metal diode and microstrip slot antenna as rectenna elements , 2008 .

[29]  George C Schatz,et al.  Optical properties of nanowire dimers with a spatially nonlocal dielectric function. , 2010, Nano letters.

[30]  M. Stockman,et al.  Nanofocusing of optical energy in tapered plasmonic waveguides. , 2004, Physical review letters.

[31]  H. Rothuizen,et al.  Nanometer thin-film Ni-NiO-Ni diodes for detection and mixing of 30 THz radiation , 1998 .

[32]  C. Mirkin,et al.  Localized surface plasmon resonance spectroscopy of single silver triangular nanoprisms. , 2006, Nano letters.

[33]  B. M. Kale Electron Tunneling Devices In Optics , 1985 .

[34]  Kai Chang,et al.  A high-efficiency dual-frequency rectenna for 2.45- and 5.8-GHz wireless power transmission , 2002 .

[35]  George C. Schatz,et al.  Gold nanoparticle dimer plasmonics: finite element method calculations of the electromagnetic enhancement to surface-enhanced Raman spectroscopy , 2009, Analytical and bioanalytical chemistry.

[36]  K. Catchpole,et al.  Plasmonic solar cells. , 2008, Optics express.

[37]  Guy A. E. Vandenbosch,et al.  Systematic Full-Wave Characterization of Real-Metal Nano Dipole Antennas , 2013, IEEE Transactions on Antennas and Propagation.

[38]  Glenn D. Boreman,et al.  Antenna-coupled metal-oxide-metal diodes for dual-band detection at 92.5 GHz and 28 THz , 2004 .

[39]  J. Kottmann,et al.  Spectral response of plasmon resonant nanoparticles with a non-regular shape. , 2000, Optics express.

[40]  G. Park,et al.  Terahertz field enhancement by a metallic nano slit operating beyond the skin-depth limit , 2009 .

[41]  Bert Hecht,et al.  Evolutionary optimization of optical antennas. , 2012, Physical review letters.

[42]  C. R. Brewitt-Taylor,et al.  Planar antennas on a dielectric surface , 1981 .

[43]  W. Porod,et al.  Tunable antenna-coupled metal-oxide-metal (MOM) uncooled IR detector (Invited Paper) , 2005, SPIE Defense + Commercial Sensing.

[44]  Mario Dagenais,et al.  New Process Development for Planar-Type CIC Tunneling Diodes , 2010, IEEE Electron Device Letters.

[45]  R. L. Bailey,et al.  A Proposed New Concept for a Solar-Energy Converter , 1972 .

[46]  Jean-Pierre Fleurial,et al.  Thermoelectric power generation materials: Technology and application opportunities , 2009 .

[47]  Mario Dagenais,et al.  Solar spectrum rectification using nano-antennas and tunneling diodes , 2010, OPTO.

[48]  N. Xi,et al.  Plasmonic-Resonant Bowtie Antenna for Carbon Nanotube Photodetectors , 2012 .

[49]  F. Aussenegg,et al.  Optical dichroism of lithographically designed silver nanoparticle films. , 1996, Optics letters.

[50]  Jean-Jacques Greffet,et al.  Resonant optical antennas , 2013, The 8th European Conference on Antennas and Propagation (EuCAP 2014).