Task D9(a): Nanophotonic Devices for Quantum Information Processing and Sensing (Task Leaders: E. Waks, I, Mayergoyz, O. Rabin, B. Shapiro)

1. I. D. Mayergoyz, G. Lang, L. Huyng, S. Tkachuk, C. Krafft, and O. Rabin "Plasmon resonance enhancement of magneto-optic effects in garnets," J. Appl. Phys. 107, 09A925 (2010). (PDF)

2. E. Waks and D. Sridharan, "Cavity QED treatment of interactions between a metal nanoparticle and dipole emitter," Phys. Rev. A 82, 043845 (2010). (PDF)

3. C. Ropp, R. Probst, Z. Cummins, R. Kumar, A. J. Berglund, S. R. Raghavan, E. Waks, and B. Shapiro, "Manipulating quantum dots to nanometer precision by control of flow," Nano Lett. 10, 2525-2530 (2010). (PDF)

4. D. Sridharan, E. Waks, G. Solomon, and J. T. Fourkas, "Reversible tuning of photonic crystal cavities using photochromic thin films," Appl. Phys. Lett. 96, 153303 (2010). (PDF)

5. W. Lee, S. Y. Lee, R. M. Briber, O. Rabin, "Self-assembled SERS substrates with tunable surface plasmon resonances," Advanced Functional Materials, Adv. Funct. Mater. 21, 3424 (2011). (PDF)

6. R. Bose, D. Sridharan, G. S. Solomon, and E. Waks, "Observation of strong coupling through transmission modification of a cavity-coupled photonic crystal waveguide," Opt. Express 19 [6], 5398-5409 (2011). (PDF)

7. D. Sridharan, R. Bose, H. Kim, G. S. Solomon, and E. Waks, "A reversibly tunable, photonic crystal nanocavity laser using photochromic thin film," Opt. Express 19 [6], 5551-5558 (2011). (PDF)

8. S. Tkachuk, G. Lang, C. Krafft, O. Rabin, and I. Mayergoyz, "Plasmon resonance enhancement of Faraday rotation in thin garnet films," J. Appl. Phys. 109, 07B717 (2011). (PDF)

9. R. Bose, D. Sridharan, G. S. Solomon, and E. Waks, "Large optical Stark shifts in semiconductor quantum dots coupled to photonic crystal cavities," Appl. Phys. Lett. 98, 121109 (2011). (PDF)

10. H. Kim, T. C. Shen, D. Sridharan, G. S. Solomon, and E. Waks, "Magnetic field tuning of a quantum dot strongly coupled to a photonic crystal cavity," Appl. Phys. Lett. 98, 091102 (2011). (PDF)

    D. Sridharan and E. Waks, "All-optical switch using quantum-dot saturable absorbers in a DBR microcavityy," IEEE J. Quantum Electron. 47, 31-39 (2011). (PDF)

11. K. Lim, S. Gupta, C. Ropp, and E. Waks, "Development of metal etch mask by single layer lift-off for silicon nitride photonic crystals," Microelectron. Eng. 88, 994-998 (2011). (PDF)

Task D9(b): Microwave and Optical Control of Quantum Dots (Task Leaders: E. Waks, J. Rodgers)

1. H. Kim, D. Sridharan, T. C. Shen, G. S. Solomon, and E. Waks, "Strong coupling between two quantum dots and a photonic crystal cavity using magnetic field tuning," Opt. Express 19 [3], 2589-2597 (2011). (PDF)

Task D10: Nanoscale Electrodynamics of Superconductors and Other Materials with Radical New Forms of Microwave Spectroscopy (Task Leaders: S. Anlage, M. Fuhrer)

1. T. Tai, X. X. Xi, C. G. Zhuang, D. I. Mircea, and S. M. Anlage, "Nonlinear near-field microwave microscope for RF defect localization in superconductors," IEEE Trans. Appl. Supercond. 21, 2615-1618 (2011). (PDF)

2. H. A. Atikian, B. G. Ghamsari, S. M. Anlage, and A. H. Majedi, "Ultrafast linear kinetic inductive photoresponse of YBa₂Cu₃O_7-δ meander-line structures by photoimpedance measurements," Appl. Phys. Lett. 98, 081117 (2011). (PDF)

3. C. Kurter, A. P. Zhuravel, A. V. Ustinov, and S. M. Anlage, "A microscopic examination of hot spots giving rise to nonlinearity in superconducting resonators," Phys. Rev. B (to be published). (PDF)

4. E. D. Cobas, S. M. Anlage, and M. S. Fuhrer, "Single carbon nanotube Schottky diode microwave rectifiers," IEEE Trans. MTT (to be published). (PDF)