Laboratory for Optical Physics and Engineering
306 N. Wright St. | Urbana, IL 61801 | 217.333.2483

2024

1. A.W. Steinforth and J.G. Eden, Higher-order fractal transverse modes observed in microlasers, Optics Express 32 , 6848-6864 (2024).

2. J. Kim, D.J. Sievers, A.E. Mironov, S.J. Park and J.G. Eden, Uniform broad-area deposition and patterning of SiO2 nanofilms by 172 nm photochemical conversion of liquid tetraethoxysilane layers at 300 K. APL Materials 12, 011103 (2024).

2023

1. J. Kim, A.E. Mironov, S. Park, C. Kim, S.J. Park and J.G. Eden, Ultrasound harmonic generation and atomic layer deposition of multilayer, deep-UV mirrors and filters with microcavity plasma arrays. The European Physical Journal D 77, 73 (2023).

2. T.M. Hoang, S.K. Chung, T. Le, S. Park, S.J. Park, J.G. Eden, C. Holland, H. Wang, O. Momeni, R. Bradley, S. Crane, J.D. Prestage and N. Yu, Micro mercury trapped ion clock prototypes with 10^-14 frequency stability in 1-liter packages. Scientific Reports 13, 10629 (2023).

3. J.A. Michaels, N. Delegan, Y. Tsaturyan, J.R. Renzas, D.D. Awschalom, J.G. Eden, F.J. Heremans, Bias-pulsed atomic layer etching of 4H-silicon carbide producing subangstrom surface roughness. Journal of Vacuum Science and Technology A 41, 032607 (2023).

4. J.D. Hewitt, C. Campbell, K.T. Raymond, S. Park, K.V. Desai, A.E. Mironov and J.G. Eden, CsAr, CsXe, and RbXe B2Σ1/2+ Interatomic Potentials Determined from Absorption Spectra and Calculations of Franck–Condon Factors for Free–Free Optical Transitions of Atomic Collision Pairs. Journal of Physical Chemistry A 127, 16, 3675–3683 (2023).

5. S. Nijdam, K.V. Desai, S.J. Park, P.P. Sun, O. Sakai, G. Lister and J.G. Eden, Foundations of Plasma Photonics: Lamps, Lasers, and Electromagnetic Devices. Plasma Sources Science and Technology 31, 123001 (2023).

2022

4. J. Kim, A. E. Mironov, J. H. Cho, D. S. Sievers, C. M. Herring, S. Park, P. P. Sun, Z. Liang, W. Chen, S-J. Park, J. G. Eden. Commercialization of microcavity plasma devices and arrays: Systems for VUV photolithography and nanopatterning, disinfection of drinking water and air, and biofilm deactivation for medical therapeutics. Plasma Processes and Polymers 19, 2200075 (2022).

3. S. Park, A. E. Mironov, J. Kim, S-J. Park, J. G. Eden. 194 nm microplasma lamps driven by excitation transfer: Optical sources for the 199Hg ion atomic clock and photochemistry. Plasma Sources Science and Technology 31, 045007 (2022).

2. K. Y. Choi, T. Sultan, O. Ajiteru, H. Hong, Y. J. Lee, J. S. Lee, H. Lee, O. J. Lee, S. H. Kim, J. S. Lee, S.-J. Park, J. G. Eden, and C. H. Park. Treatment of fungal-infected diabetic wounds with low temperature plasma. Biomedicines 10, 27 (2022).

1. A. W. Steinforth, J. A. Rivera, and J. G. Eden. Imaging of transient phenomena with low coherence lasers comprising arrays of independent microbeams: A laser version of Harold Edgerton's stroboscope. APL Photonics 7, 016104 (2022).

2021

6. J. A. Rivera, K. V. Desai, and J. G. Eden. Fluorophore-gold nanoparticle FRET/plasmonic lasers with the streptavidin-biotin complex as the acceptor-donor linkage. AIP Adv. 11, 125033 (2021).

5. A. E. Mironov, S. Park, J. Kim, D. J. Sievers, S.-J. Park, S. Spirk, and J. G. Eden. Photoablative lithography of cellulose acetate at 172 nm: Subtractive 3D printing of biodegradable optical microstructures and molds for polydimethylsiloxane patterning. APL Mater. 9, 111115 (2021).

4. N. Yu, K. V. Desai, A. E. Mironov, M. Xiong, M. Cavillon, T. Hawkins, J. Ballato, J. G. Eden, and P. D. Dragic. Reduced quantum defect in a Yb-doped fiber laser by balanced dual-wavelength excitation. Appl. Phys. Lett. 119, 141105 (2021).

3. W. Goldshlag, R. Su, S. Park, T. O. Reboli, and J. G. Eden. Interference between atomic Rb (5d5/2-5p3/2) and (5p3/2-5s1/2) coherences: observation of an exceptional point by quantum beating at ~2.1 THz. J. Phys. B: At. Mol. Opt. Phys. 54, 165001 (2021).

2. T. M. Hoang, S. K. Chung, T. Le, J. D. Prestage, L. Yi, R. L. Tjoelker, S. Park, S.-J. Park, J. G. Eden, C. Holland, and N. Yu. Integrated physics package of micromercury trapped ion clock with 10-14-level frequency stability. Appl. Phys. Lett. 119, 044001 (2021).

1. P. P. Sun, J. Won, G. Choo-Kang, S. Li, W. Chen, G. L. Monroy, E. J. Chaney, S. A. Boppart, J. G. Eden, and T. H. Nguyen. Inactivation and sensitization of Pseudomonas aeruginosa by microplasma jet array for treating otitis media. npj Biofilms and Microbiomes 7, 48 (2021).

2020

4. A. E. Mironov, J. Kim, Y. Huang, A. W. Steinforth, D. J. Sievers, and J. G. Eden. Photolithography in the vacuum ultraviolet (172 nm) with sub-400 nm resolution: photoablative patterning of nanostructures and optical components in bulk polymers and thin films on semiconductors. Nanoscale (2020).

3. S. Park, A. E. Mironov, and J. G. Eden. Cs-Ar optical amplifier with a saturation intensity of 10 kW/cm2 and single-pass extraction efficiency of 28% at 852.2 nm. Opt. Express 28, 14072-14084 (2020).

2. J. Kim, A. E. Mironov, S.-J. Park, and J. G. Eden. Atomic layer deposition and patterning of 15-185 nm thick Al2O3 films with microplasma arrays for low temperature growth and sub-300 nm lateral feature resolution. ACS Appl. Nano Mater. 3, 4025-4036 (2020).

1. A. E. Mironov, N. Yu, S. Park, M. Tuggle, J. Gragg, C. Kucera, T. Hawkins, J. Ballato, J. G. Eden, and P. Dragic. All optical fiber thermal vacuum gauge. JPhys Photonics 2, 014006 (2020).

2019

3. P. P. Sun, R. Zhang, W. Chen, P. V. Braun, and J. G. Eden. Dynamic plasma/metal/dielectric photonic crystals in the mm-wave region: electromagnetically-active artificial material for wireless communications and sensors. Appl. Phys. Rev. 6, 041406 (2019).

2. J. H. Cho, H. J. Yang, S.-J. Park, and J. G. Eden. Spatially-periodic microplasmas in complex microchannel networks: wall-plasma interactions and dynamic behavior. J. Phys. D: Appl. Phys. 52, 375202 (2019).

1. T. C. Galvin and J. G. Eden. Markov-Airy description of optical scattering, waveguides, and resonators. J. Opt. Soc. Am. A 36, 898-909 (2019).

2018

3. A. E. Mironov, D. L. Carroll, J. W. Zimmerman, and J. G. Eden. Cs D2 line laser (852.1 nm) pumped by the photoassociation of Cs-Ar, Cs-Kr, and Cs-Xe collision pairs: Impact of rare gas partner on threshold and efficiency. Appl. Phys. Lett. 113, 051105 (2018).

2. J. A. Rivera, T. C. Galvin, A. W. Steinforth, and J. G. Eden. Fractal modes and multi-beam generation from hybrid microlaser resonators. Nat. Comm. 9, 2594 (2018).

1. H. J. Park, S. H. Kim, H. W. Ju, H. Lee, Y. Lee, S. Park, H. J. Yang, S.-J. Park, J. G. Eden, J. Yang, and C. H. Park. Microplasma jet arrays as a therapeutic choice for fungal keratitis. Sci. Rep. 8, 2422 (2018).

2017

6. A. E. Mironov, J. D. Hewitt, and J. G. Eden. Spin polarization of Rb and Cs np2P3/2 (n = 5, 6) atoms by circularly polarized photoexcitation of a transient diatomic molecule. Phys. Rev. Lett. 118, 113201 (2017)

5. S.-J. Park, C. Herring, A. E. Mironov, J. H. Cho, and J. G. Eden. 25 W of average power at 172 nm in the vacuum ultraviolet from flat, efficient lamps driven by interlaced arrays of microcavity plasmas. APL Photonics 2, 041302 (2017).

4. J. A. Rivera and J. G. Eden. Lasing at 602-620 nm from a red algae-derived phycobiliprotein. APL Photonics 2, 121301 (2017).

3. H. Cheng, Y. Zhou, A. E. Mironov, W. Wang, T. Qiao, W. Lin, Q. Qian, S. Xu, Z. Yang, and J. G. Eden. Mode suppression of 53 dB and pulse repetition rates of 2.87 and 36.4 GHz in a compact, mode-locked fiber laser comprising coupled Fabry-Perot cavities of low finesse (F = 2). Opt. Express 25, 24400-24409 (2017).

2. A. E. Mironov and J. G. Eden. Manipulating excited state hyperfine level populations in an atomic laser through electronic spin polarization: controlling upper laser level degeneracy and small signal gain. Opt. Express 25, 29676-29686 (2017).

1. H. J. Yang, S.-J. Park, and J. G. Eden. Narrowband attenuation at 157 GHz by a plasma photonic crystal. J. Phys. D: Appl. Phys. 50, 43LT05 (2017).

2016

5. O. J. Lee, H. W. Ju, G. Khang, P. P. Sun, J. A. Rivera, J. H. Cho, S.-J. Park, J. G. Eden, and C.-H. Park. An experimental burn wound-healing study of non-thermal atmospheric pressure microplasma jet arrays. J. Tissue Eng. 10, 348-357 (2016).

4. J. A. Rivera and J. G. Eden. Flavin mononucleotide biomolecular laser: longitudinal mode structure, polarization, and temporal characteristics as probes of local chemical environment. Opt. Express 24, 10858-10868 (2016).

3. T. C. Galvin, C. J. Wagner, and J. G. Eden. Interruption of electronically excited Xe dimer formation by the photoassociation of Xe(6s[3/2]2)-Xe(5p6 1S0) thermal collision pairs. J. Chem. Phys. 144, 244308 (2016).

2. A. Semnani, H. J. Yang, M. Sinanis, S.-J. Park, J. G. Eden, S. O. Macheret, and D. Peroulis. Power limiting characteristics of a plasma-loaded evanescent-mode cavity resonator. 46th European Microw. Conference, 627-630 (2016).

1. A. Semnani, H. J. Yang, M. Sinanis, S.-J. Park, J. G. Eden, S. O. Macheret, and D. Peroulis. Low temperature plasma for tunable resonant attenuation. IEEE Int. Microw. Symp. (2016).

2015

3. P. P. Sun, H. L. Chen, S. J. Park, J. G. Eden, D. X. Liu, and M. G. Kong. Off-axis chemical crosstalk in an atmospheric pressure microplasma jet array. J. Phys. D: Appl. Phys. 48, 425203 (2015).

2. A. E. Mironov, W. Goldshlag, and J. G. Eden. Two color pumping of the Rb D2 line laser (780 nm) through the photoassociation of Rb-Ar or Rb-Xe thermal pairs: realization of a quantum efficiency above one. Appl. Phys. Lett. 107, 041112 (2015).

1. H. Cheng, A. E. Mironov, J. H. Ni, H. J. Yang, W. W. Chen, Z. Dai, P. D. Dragic, J. Dong, S-J. Park, and J. G. Eden. Coupling quantum dots to optical fiber: low pump threshold laser in the red with a near top hat beam profile. Appl. Phys. Lett. 106, 081106 (2015).

2014

5. C. H. Park, J. S. Lee, J. H. Kim, D.-K. Kim, O. J. Lee, H. W. Ju, B. M. Moon, J. H. Cho, M. H. Kim, P. P. Sun, S.-J. Park, and J. G. Eden. Wound healing with nonthermal microplasma jets generated in arrays of hourglass microcavity devices. J. Phys. D: Appl. Phys. 47, 435402 (2014).

4. C. J. Wagner, T. C. Galvin, and J. G. Eden. Xe2 gerade Rydberg states observed in the afterglow of a microplasma by laser spectroscopy of a3Σu+(1u, O u) absorption in the green (545–555 nm) and near-infrared (675–800 nm). J. Chem. Phys. 140, 244312 (2014).

3. K. E. Keister, C. J. Wagner, J. L. Putney, J. D. Hewitt, and J. G. Eden. Determination of Ar2+ and N4+ recombination coefficients by subpicosecond multiphoton ionization at 248 nm and microwave interferometry. Phys. Rev. A 89, 013401 (2014).

2. W.-J. Kuang, Q. Li, H. Tolner, T. Oh, S.-J. Park, and J. Gary Eden. Large-area polymeric microplasma devices with elongated lifetime for flexible display and photonic applications. IEEE Electr. Device Lett. 35, 765-767 (2014).

1. M. R. Gartia, S. Seo, J. Kim, T.-W. Chang, G. Bahl, M. Lu, G. L. Liu, and J. Gary Eden. Injection-seeded optoplasmonic amplifier in the visible. Sci. Rep. 4, 6168 (2014).

2013

4. M. Kim, J. Cho, S. Ban, R. Choi, E. Kwon, S. Park, and J. Eden, "Efficient generation of ozone in arrays of microchannel plasmas," Journal of Physics D: Applied Physics, vol. 46, p. 305201, 2013.

3. J. G. Eden, S. Park, J. H. Cho, M. H. Kim, T. J. Houlahan, B. Li, E. S. Kim, T. L. Kim, S. K. Lee, K. S. Kim, J. K. Yoon, S. H. Sung, P. Sun, C. M. Herring, and C. J. Wagner, "Plasma Science and Technology in the Limit of the Small: Microcavity Plasmas and Emerging Applications," Plasma Science, IEEE Transactions on, vol. PP, pp. 1-1, 2013.

2. B. Li, T. Houlahan Jr, C. Wagner, and J. Eden, "Modulating the secondary electron emission coefficient at the base-collector interface of the plasma bipolar junction transistor," Applied Physics Letters, vol. 102, p. 083502, 2013.

1. J. Hewitt, T. Houlahan, J. Gallagher, D. Carroll, A. Palla, J. Verdeyen, G. Perram, and J. Eden, "Role of excited state photoionization in the 852.1 nm Cs laser pumped by Cs-Ar photoassociation," Applied Physics Letters, vol. 102, pp. 111104-111104-4, 2013.

2012

5. P. P. Sun, J. H. Cho, C.H. Park, S.J. Park, and J. G. Eden. "Close-packed arrays of plasma jets emanating from microchannels in a transparent polymer." IEEE Transactions on Plasma Science 40, no. 11 (2012): 2946-2950.

4. D. S. Lee, S. Hamaguchi, O. Sakai, S. J. Park, and J. G. Eden, "Microcavity array plasma system for remote chemical processing at atmospheric pressure," Journal of Physics D-Applied Physics, vol. 45, Jun 6 2012.

3. J. H. Cho, S. J. Park, and J. G. Eden, "Propagation and decay of low temperature plasma packets in arrays of dielectric microchannels," Applied Physics Letters, vol. 101, pp. 253508-5, 2012.

2. J. Hewitt, J. Readle, and J. Eden, "Observation of the continuous transformation of a four level laser into a two level system," Applied Physics Letters, vol. 101, pp. 071102-071102-4, 2012.

1. J. Hewitt and J. Eden, "Lasing on the D lines of sodium pumped by free→ free transitions of Na-Xe collision pairs," Applied Physics Letters, vol. 101, pp. 241109-241109-4, 2012.

2011

5. J. H. Ma, D. C. Shih, S. J. Park, and J. G. Eden, "Microplasma Jets Generated by Arrays of Microchannels Fabricated in Flexible Molded Plastic," Ieee Transactions on Plasma Science, vol. 39, pp. 2700-2701, Nov 2011.

4. D. S. Lee, O. Sakai, S. J. Park, J. G. Eden, and S. Hamaguchi, "Plasma Microchannel and Jet Enhanced by an Array of Ellipsoidal Microcavities," Ieee Transactions on Plasma Science, vol. 39, pp. 2690-2691, Nov 2011.

3. T. L. Kim, E. S. Kim, S. J. Park, and J. G. Eden, "Confinement of Microplasmas in Silicon Channels With Widths as Small as < 5 mu m," Ieee Transactions on Plasma Science, vol. 39, pp. 2696-2697, Nov 2011.

2. K. S. Kim, S. J. Park, and J. G. Eden, "Linear Arrays of Microchannel Plasmas in Monolithic Al/Al2O3 Sheets," Ieee Transactions on Plasma Science, vol. 39, pp. 2698-2699, Nov 2011.

1. J. H. Cho, M. H. Kim, S. J. Park, and J. G. Eden, "Arrays of Microplasma Jets Generated by Double Parabolic Microcavities in an Hourglass Configuration," Ieee Transactions on Plasma Science, vol. 39, pp. 2376-2377, Nov 2011.

2010

5. S. H. Sung, I. C. Hwang, S. -J. Park, and J. G. Eden, "Interchannel optical coupling within arrays of linear microplasmas generated in 25-200 µm wide glass channels" Appl. Phys. Lett., vol. 97, 231502, December 6, 2010.

4. C .G. Carlson, K. E. Keister, P. D. Dragic, A. Croteau, and J. G. Eden, "Photoexcitation of Yb-doped aluminosilicate fibers at 250 nm: Evidence for excitation transfer from oxygen deficiency centers to Yb3+" J. Opt. Soc. Am. B, vol. 27, pp. 2087-2094, October, 2010.

3. C. J. Wagner, P. A. Tchertchian, and J. G. Eden, "Coupling electron-hole and electron-ion plasmas: Realization of an npn plasma bipolar junction phototransistor"Appl. Phys. Lett., vol. 97, 134102, September 27, 2010.

2. J. D. Readle, J. G. Eden. J. T. Verdeyen, and D. L. Carroll, "Four level, atomic Cs laser at 852.1 nm with a quantum efficiency above 98%: Observation of three body photoassociation" Appl. Phys. Lett., vol. 97, 021104, July 12, 2010.

1. P. M. Bryant, E. J. Szili, T. Whittle, S. -J. Park, J. G. Eden, S. Al-Bataineh, D. A. Steele, R. D. Short, and J. W. Bradley, "The use of a micro-cavity discharge array at atmospheric pressure to investigate the spatial modification of polymer surfaces," Surf. Coat. Technol., vol. 204, pp. 2279-2288, April 15, 2010.

2009

2. K.S. Kim, T.L. Kim, J.K. Yoon, S.-J, Park, and J. G. Eden, Applied Physics Letters, v 94, 011503, 2009. "Control of Cavity Cross-Section in Microplasma Devices: Luminance and Temporal Response of 200 x 100 and 320 x 160 Arrays with Parabolic Al2O3 Microcavities"

1. D. Yarmolich, Ya. E. Krasik, E. Stambulchik, V. Bernshtam, J. K. Yoon, B. Herrera, S.-J. Park, and J. G. Eden, Applied Physics Letters, v 94, 011501, 2009. "Self-pulsing 104 A cm-2 Current Density Discharges in Dielectric Barrier Al/Al2O3 Microplasma Devices"

2008

18. J. G. Eden, B. J. Ricconi, Y. Xiao, F. Shen, and A.A. Senin, Advances in Atomic Molecular and Optical Physics, v. 56, p 49-118, 2008. "Interactions Between Thermal Ground or Excited Atoms in the Vapor Phase: Many-Body Dipole-Dipole Effects, Molecular Dissociation, and Photoassociation Probed By Laser Spectroscopy"

17. J. D. Readle, C. J. Wagner, J. T. Verdeyen, D.A. Caroll, and J. G. Eden, Electronics Letters, v 44, n 25, p1466-1467, 2008. " Lasing in Cs at 894.3nm pumped by the dissociation of CsAr excimers"

16. K.-F. Chen and J. G. Eden, Applied Physics Letters, v 93, 161501, 2008. "The plasma transistor: A microcavity plasma device coupled with a low voltage, controllable electron emitter"

15. Y. Xiao, A.A. Senin, B.J. Ricconi, R. Kogler, C.J. Zhu, and J. G. Eden, Journal of Physics B: Atomic, Molecular and Optical Physics, v 41, n 18, p185101, 2008. "Molecular Dissociation and Nascent Product State Distributions Detected with Atomic Wavepacket Interferometry and Parametric Four-wave Mixing: Rb2 Predissociation Observed by Quantum Beating in Rb at 18.2 THz"

14. M. Lu, S. S. Choi, C. J. Wagner, J. G. Eden, and B. T. Cunningham, Applied Physics Letters, v 92, n 26, 261502, 2008. "Label free biosensor incorporating a replica-molded, vertically emitting distributed feedback laser"

13. K.S. Kim, J. K. Yoon, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1258-1259, 2008. “Intense Green Luminescence From 20,000 Pixel Arrays of Al/Al2O3 Microcplasma Devices With Parabolic Cross-Sectional Cavities”

12. J. Zheng, J. Y. Kim, S. K. Lee, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1256-1257, 2008. "Molded Arrays of Microcavities and Channels in Polymer Structures: Ultraviolet Emitting Microplasma Sources for Biophotonics"

11. P. A. Tchertchian, T. M. Spinka, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1254-1255, 2008. "Parasitic Emission Suppression in Arrays of Individually Addressable Silicon Microcavity Plasma Devices"

10. A. J. Price, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1252-1253, 2008. "Plasma Sheets and Cylinders Generated From Aluminum Wire Fabric"

9. T. S. Anderson, J. H. Ma, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1250-1251, 2008. "Multichannel Microchemical Reactor Comprising Replica-Molded Microplasma Devices: Chemiluminescence and Sulfur Deposition in Ar/Cs2 Flows"

8. P. M. Bryant, G. C. B. Clarke, T. Kim, S.-J. Park, J. G. Eden, and J. W. Bradley, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1248-1249, 2008. "Time-Resolved Imaging of a Silicon Micro-Cavity Discharge Array"

7. S. H. Sung, T. M. Spinka, Y. M. Kang, A. G. Berger, S.-J. Park, and J. G. Eden, IEEE Transactions on Plasma Science, Volume 36, Issue 4, Part 1, p1246-1247, 2008. "Evidence for Nearest Neighbor Coupling in Arrays of Ellipsoidal Microcavity Plasmas"

6. M. Lu, S.-J. Park, B. T. Cunningham, and J. G. Eden, Optics Communications, v 281, n 11, p 3159-3162, 2008. "Vertically emitting, dye-doped polymer laser in the green (λ [similar to] 536 nm) with a second order distributed feedback grating fabricated by replica molding"

5. K.S. Kim, J.K. Yoon, E. Xie, T.-L. Kim, G. Heimberg, S.-J. Park, and J.G. Eden, Digest of Technical Papers– SID International Symposium, vol. 39, n 1, p382-384, 2008. “Fully Addressable, Self-Assembled Microcavity Plasma Arrays: Improved Luminous Efficacy by Controlling Device Geometry”

4. M. Lu, S.-J. Park, B. T. Cunningham, and J. G. Eden, Applied Physics Letter, 92, 101928, 2008. "Low temperature plasma channels generated in microcavity trenches with widths of 20?150 μm and aspect ratios as large as 104:1"

3. J. Waskoenig, D. O'Connell, V. Schulz- von der Gathen, J. Winter, S.-J. Park, and J. G. Eden, Applied Physics Letters, v 92, n 10, p 101503, 2008. "Spatial dynamics of the light emission from a microplasma array"

2. J.M. Hafez, J. Gao, and J.G. Eden, Electronics Letters, 44, 282, 2008. "Imaging and detection of periodic, 5-100 Hz magnetic fields with epitaxial rare earth-iron garnet films "

1. K.S. Kim, S.-J. Park, and J. G. Eden, Journal of Physics D: Applied Physics, v 41, n 1, p 012004, 2008 .“Self-Patterned Aluminum Interconnects and Ring Electrodes for Arrays of Microcavity Plasma Devices Encapsulated in Al2O3”

2007

12. M. Lu, S. -J. Park, J. G. Eden, and B. T. Cunningham, Journal of Microelectromechanical Systems, v 16, n 6, p 1397-1402, 2007. " Microplasma devices and arrays fabricated by plastic-based replica molding"

11. B. J. Ricconi, S. -J. Park, S. H. Sung, P. A. Tchertchian, J. G. Eden, Electronics Letters, 43, 1194, 2007. " Ultraviolet emission from OH and ArD in microcavity plasma devices"

10. S. -J. Park, K.S. Kim, A. J. Price, P.A. Tchertchian, P. -Y, Chen, J. K. Yoon and J. G. Eden, Digest of Technical Papers - SID International Symposium, v 38, n 1, p 538-541, 2007. "Large scale arrays of microcavity plasma devices based on encapsulated Al/Al2O3 electrodes: Device characteristics as a plasma display pixel and low cost wet chemical fabrication processing"

9. F. Shen, J. Gao, A. A. Senin, C. J. Zhu, J. R. Allen, Z. H. Lu, Y. Xiao, and J. G. Eden, Phys. Rev. Lett. 99, 143201 2007. "Many-Body Dipole-Dipole Interactions between Excited Rb Atoms Probed by Wave Packets and Parametric Four-Wave Mixing"

8. Robert Ginn, Steven Solomon, Sung-Jin Park, J. G. Eden, Jeff Guy, and Ed Peters, Proc. SPIE, 6544, 2007. " Versatile plasma display technology for UV-visible scene projector "

7. C.J. Zhu, Y. Xiao, A.A. Senin, J. Gao,and J.G. Eden, Physical Review A - Atomic, Molecular, and Optical Physics, v 75, n 5, 2007, p 053405. "Quantum beating in Rb at 18.3 THz (608 cm-1) detected by parametric six-wave mixing and sum-frequency generation in LiIO3"

6. S. -J. Park, J. D. Readle, A. J. Price, J. K. Yoon and J. G. Eden, J. Phys. D: Appl. Phys., v 40, No. 13, 3907-3913, 2007. " Lighting from thin (<1 mm) sheets of microcavity plasma arrays fabricated in Al/Al2O3/glass structures: planar, mercury-free lamps with radiating areas beyond 200 cm2"

5. Robert Ginn, Steven Solomon, S. -J. Park, J. G. Eden, Jeff Guy, and Ed Peters, Proc. SPIE 6544, 65440F, 2007. " Versatile plasma display technology for UV-visible scene projector"

4. B. J. Ricconi, S. -J. Park, S. H. Sung, P. A. Tchertchian, J. G. Eden, Applied Physics Letters, v 90, n 20, 2007, p 201504. " OH (A 2Σ+) and rare gas-deuteride (NeD, ArD) excimers generated in microcavity plasmas : Ultraviolet emission spectra and formation kinetics"

3. J. M. Hafez, J. Gao, and J. G. Eden, Applied Physics Letters, v 90, n 13, 26, p 132502-1-3. " Detection of weak (~0.5-300 nT), low frequency (5-100 Hz) magnetic fields at room temperature by kilohertz modulation of the magneto-optical hysteresis in rare earth-iron garnet films"

2. S. -J. Park, P. A. Tchertchian, S. -H. Sung, T. M. Spinka, and J. G. Eden, IEEE Transactions on Plasma Science, v 35, n 2, p 215-22, 2007. "Arrays of addressable microcavity plasma devices"

1. J. L. Putney, K. E. Keister, C. J. Wagner, and J. G. Eden, 2007 IEEE LEOS Annual Meeting Conference, 2007, p 2 pp. " Microwave interferometric measurements of the electron density generated by sub-picosecond 100 GW KrF laser pulses in air"

2006

20. S. -J. Park, K. S. Kim, A. Y. Chang, L. Z. Hua, J. C. Asinugo, T. Mehrotra, T. M. Spinka, and J. G. Eden, Applied Physics Letters, 89, 221501, 2006. " Confinement of nonequilibrium plasmas in microcavities with diamond or circular cross sections: Sealed arrays of Al/Al2O3/glass microplasma devices with radiating areas above 20 cm2 "

19. J. H. Seo, and J. G. Eden, Journal of Applied Physics, Vol. 100, n 123302, 2006. " Two-Dimensional Simulation of AC-Driven Microplasmas Confined to 100-300 µm Diameter Cylindrical Microcavities".

18. S. -J. Park; J.G. Eden, K. Jain, M.A. Klosner, Japanese Journal of Applied Physics, 45, 10B, 8221-8224, 2006. " Flexible arrays of Ni/polyimide/Cu microplasma devices with a dielectric barrier and excimer laser ablated microcavities"

17. S.-J. Park, T. M. Spinka, and J. G. Eden, Applied Physics Letters, 89, 031502, 2006. "Linear arrays of ceramic microcavity plasma devices (127–180 µm diameter) driven by buried coplanar electrodes: Shaping the intracavity electric field and emission profile "

16. J. G. Eden, S.-J. Park, Proceedings of 2006 6th Internaional Meeting on Information Display and the 5th International Display Manufacturing Conference - Digest of Technical Papers, p 473-476, 2006. " Arrays of microcavity plasma devices: Versatile platform for the next generation of plasma displays"

15. P. A. Tchertchian, S. -H. Sung, T. L. Kim, S. -J. Park, J. G. Eden, Bulletin of The American Physical Society, vol. 51, n 5, 2006. " Addressable Silicon Microplasma Arrays: Discharge Properties for Pixelized Microcavities having a Multi-Electrode Geometry"

14. K. S. Kim, J. D. Readle, T. M. Spinka, L. Z. Hua, S. -J. Park, and J. G. Eden, Bulletin of The American Physical Society, vol. 51, n 5, 2006. “ Confinement of Plasmas in Microcavities with Diamond or Circular Cross Sections and Driven by Al2O3 Encapsulated Electrodes”

13. J. F. Zachary, J. P. Blue, R. J. Miller, B. J. Ricconi, J. G. Eden and W. D. O’Brien, Ultrasound in Medicine & Biology, v 32, n 11, p 1763-1770, 2006. " Lesions of ultrasound-induced lung hemorrhage are not consistent with thermal injury"

12. J.G. Eden, S.-J. Park, Physics of Plasmas, v 13, n 5, p 057101, 2006. " New opportunities for plasma science in nonequilibrium low-temperature plasmas confined to microcavities: There's plenty of room at the bottom"

11. C.J. Wagner, and J.G.Eden, Chemical Physics Letters, v 422, n 4-6, p 372-377, 2006. " Gerade Rydberg states of Xe2 probed by laser spectroscopy in the afterglow of a Xe microplasma: Ωg <- a3 Σu+ ( 1u, Ou- ) transitions in the near-infrared (675-800 nm)"

10. Robert Ginn, Steven Solomon, P. R. Mackin, Sung-Jin Park, J. G. Eden, and Carol Wedding, Proceeding of SPIE - The International Society for Optical Engineering, v 6208, Technologies for Synthetic Environments: Hardware-in-the-Loop Testing XI, 2006, p 62080O " Visible/UV image projector for sensor testing"

9. S. -J. Park, J. D. Readle, A.Y. Chang, L. Z. Hua, K. S. Kim, J. G. Eden, Proceeding of IEEE 33rd International Conference on Plasma Science (ICOPS), 2006, p360. " Flexible Al/Al2O3/SIO2 microplasma arrays: large area ultraviolet source for biomedical applications"

8. S. -J. Park; J.G. Eden, Proceeding of IEEE 33rd International Conference on Plasma Science (ICOPS), 2006, p405. " Microcavity plasma devices: new concepts for the high resolution plasma displays"

7. T. M. Spinka, S. -J. Park, J.G. Eden, Proceeding of IEEE 33rd International Conference on Plasma Science (ICOPS), 2006, p408. " Linear arrays of ceramic microcavity plasma devices (127-180 /spl mu/m diameter) driven by buried coplanar electrodes"

6. S.-H. Sung, P. A. Tchertchian, B. J. Ricconi, K.-F. Chen, S.-J. Park, J. G. Eden, Proceeding of IEEE 33rd International Conference on Plasma Science (ICOPS), 2006, p410. " Efficient UV emission of addressable pixel arrays of Si microplasma devices"

5. J.G. Eden, S.-J. Park and K.S. Kim, Plasma Sources Science and Technology, 15, S67-S74, 2006. " Arrays of nonequilibrium plasmas confined to microcavities : an emerging frontier in plasma science and its applications"

4. J.G. Eden, Proceedings of the IEEE, v 94, n 3, March, 2006, p 567-574, " Information display early in the 21st century: Overview of selected emissive display technologies"

3. K.H. Becker, K.H. Schoenbach, J.G. Eden, Journal of Physics D: Applied Physics, v 39, n 3, p R55-R70, 2006. " Microplasmas and applications"

2. K.-F. Chen, N. P. Ostrom, S.-J. Park, and J. G. Eden, Applied Physics Letters, v 88, 061121, 2006, " One quarter million (500×500) pixel arrays of silicon microcavity plasma devices: Luminous efficacy above 6 lumens/watt with Ne/50% Xe mixtures and a green phosphor"

1. S.-J. Park, K. S. Kim, and J. G. Eden, Journal of Applied Physics, Vol. 99, n 026107, 2006. " Ultraviolet emission intensity, visible luminance, and electrical characteristics of small arrays of Al/Al2O3 microcavity plasma devices operating in Ar/N2 or Ne at high-power loadings"

2005



21. C.J. Zhu, A.A. Senin, Z.-H. Lu, J. Gao, Y. Xiao, and J.G. Eden, Physical Review A (Atomic, Molecular, and Optical Physics), v 72, n 2, 2005, p 23811-1-7. " Polarization of signal wave radiation generated by parametric four-wave mixing in rubidium vapor: ultrafast (~150-fs) and nanosecond time scale excitation"

20. J.G. Eden, and S.-J. Park, Plasma Physics and Controlled Fusion, Vol. 47, n 12B, pp B83-B92, 2005, " Microcavity plasma devices and arrays: a new realm of plasma physics and photonic applications"

19. N.P. Ostrom,and J.G. Eden, Applied Physics Letters, v 87, n 14, p 141101-1-3, 2005, " Microcavity plasma photodetectors: photosensitivity, dynamic range, and the plasma-semiconductor interface"

18. S.-J. Park, K.-F. Chen, S.-H. Sung, C. J. Wagner, and J. G. Eden, Journal of the Society for Information Display, Vol. 13, n 11, pp949-954, 2005, " Implications of microcavity plasma devices for new plasma-display-panel cell structures with improved luminosity"

17. S.-J. Park, K.-F. Chen, S.-H. Sung, T.M. Spinka, and J.G. Eden, IDW/AD'05 - Proceedings of the 12th International Display Workshops in Conjunction with Asia Display 2005, n 2, IDW/AD'05 - Proceedings of the 12th International Display Workshops in Conjunction with Asia Display 2005, 2005, p 1495-1498, " Arrays of microcavity plasma devices: Concepts for future plasma displays"

16. Kim, S.-O. and Eden, J.G., International Display Manufacturing Conference and Exhibition, IDMC'05, Proceedings of the International Display Manufacturing Conference and Exhibition, IDMC'05, 2005, p 83-84, " DC operated microdischarge devices for high resolution plasma display panel"

15. J.G. Eden, S.-J. Park, N.P. Ostrom, K.-F. Chen, K.S. Kim, IEEE/OSA Journal of Display Technology, vol. 1, n 1, pp112-117, 2005, “ Large Arrays of Microcavity Plasma Devices for Active Displays and Backlighting”

14. J.G. Eden, S.-J. Park, N.P. Ostrom and K.-F. Chen, Journal of Physics D : Applied Physics, 38, p1644-1648, 2005, " Recent advances in microcavity plasma devices and arrays : a versatile photonic platform"

13. S.-J. Park, K.S. Kim, and J.G. Eden, 32nd IEEE International Conference on Plasma Science, 2005, " UV Generation In Microcavity Plasma Devices With Encapsulated Al2O3/Al Electrodes"

12. S.-J. Park, K.-F. Chen, N. P. Ostrom, and J. G. Eden, 32nd IEEE International Conference on Plasma Science, 2005, " One Quarter Million Pixel Arrays Of AC Excited Si Microplasma Devices"

11. S.-J. Park, K.S. Kim, and J.G. Eden, Applied Physics Letters, 86, 221501, 2005. " Nanoporous Alumina As A Dielectric For Microcavity Plasma Devices: Multilayer Al/Al2O3 Structures”

10. S.-O. Kim, and J.G. Eden, IEEE Photonics Technology Letters, 17(7), p 1543-5, 2005, " Arrays of microplasma devices fabricated in photodefinable glass and excited AC or DC by interdigitated electrodes"

9. N.P. Ostrom,and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 578-579, 2005. " Visible and near-ultraviolet emission Characteristics of Ne, Ar, and Ar/N2 excited in silicon microcavity discharge arrays"

8. N.P. Ostrom,and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 576-577, 2005. "Visible emission contours for neon plasmas in silicon microcavity discharge devices: pressure dependence of spatially resolved fluorescence above the anode plane"

7. S.-J. Park,and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 572-573, 2005, " Microdischarge devices with a nanoporous Al2O3 dielectric: Operation in Ne and air"

6. S.-J. Park, and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 570-571, 2005. " Stable microplasmas in air generated with a silicon inverted pyramid plasma cathode"

5. C.J. Wagner, and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 568-569, 2005. " Xenon microdischarge at 300-800 torr : laser spectroscopy of Xe2 a3 "

4. S.-O. Kim, and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 566-567, 2005. " Arrays of square cross-section microdischarge devices fabricated in glass and driven by interdigitated electrodes"

3. J.H. Cho, K.-W. Lee, S.-J. Park and J.G. Eden, IEEE Transactions on Plasma Science, 33(2), p 378-379, 2005. " Coplanar ac discharges between cylindrical electrodes with a nanoporous alumina dielectric: Modular dielectric barrier plasma devices"

2. S.-J. Park, K.-F. Chen, N. P. Ostrom, and J. G. Eden, Applied Physics Letters, 86(11), p1-3, 2005. " 40 000 pixel arrays of ac-excited silicon microcavity plasma devices"

1. S.-J. Park, K.-F. Chen, N.P. Ostrom, and J.G. Eden, Electron. Lett., 41(6), p311-312, 2005. "Arrays of AC-excited, silicon microdischarge devices as large as 40000 (200 x 200) pixels: electrical and optical characteristics for operation in neon"

2004

17. J. Gao, Phys. Rev. Lett., 93,243001, (2004). " Thomson Scattering from Ultrashort and Ultraintense Laser Pulses"

16. J.G. Eden., Progress in Quantum Electronics, 28(3-4), p 197-246, (2004). " High-order harmonic generation and other intense optical field-matter interactions: Review of recent experimental and theoretical advances"

15. C.J. Zhu, A.A. Senin, J. Gao, J.G. Eden, 2004 IEEE LEOS Annual Meeting Conference Proceedings, 2004, pt. 2, p 903-4 Vol.2. " Observation of quantum beating at 18.2 THz in Rb by parametric six-wave mixing"

14. C.J. Zhu, Z.H. Lu, A.A. Senin, J.R. Allen, A.L. Oldenburg, J. Gao, and J.G. Eden, International Quantum Electronics Conference (IQEC), 2004. " Competition between quantum beatings at 608 cm-1 and 70 cm-1 in Rb observed by parametric four-wave mixing"

13. J.G. Eden, Progress in Quantum Electronics, v 28, n 3-4, 2004, p 197-246. " High-order harmonic generation and other intense optical field-matter interactions: Review of recent experimental and theoretical advances"

12. Z.H. Lu, C.J. Zhu, A.A. Senin, J.R. Allen, J. Gao, and J.G. Eden, IEEE Journal on Selected Topics in Quantum Electronics, 10(1), 2004, Organic Light-Emitting Diodes, p 159-168. " Production and probing of atomic wavepackets with ultrafast laser pulses: Applications to atomic and molecular dynamics"

11. Talmadge, J.M., Gao, and Eden, J.G., 2004 2nd IEEE International Symposium on Biomedical Imaging: Macro to Nano, v 2, p1514-1515, 2004. " Magneto-optical detection of weak magnetic fields"

10. Talmadge, J.M., Gao, and Eden, J.G., Lasers and Electro-Optics Society Annual Meeting(LEOS), v 2, p 969-970, 2004. "Modulation technique for sensitive magneto-optical detection of magnetic fields"

9. Talmadge, J.M., Gao, J., Riley, M.P., Roth, R.J., Kim, S.-O., Eden, J.G., Pudonin, F.A., Mel'nikov, I.V., Lasers and Electro-Optics Society Annual Meeting(LEOS), v 1, p 53-54, 2004. " Anomalous magneto-optical Kerr effect in 1-80 nm Fe21Ni79 films"

8. Talmadge, J.M., Gao, J., Riley, M.P., Roth, R.J., Kim, S.-O., Eden, J.G., Pudonin, F.A., Mel'nikov, I.V., Applied Physics Letters, 84, 21, 2004. " Magneto-optical Kerr effect in Fe21Ni79 films on Si(100): Quantum behavior for film thicknesses below [similar to] 6 nm"

7. S.-J. Park, J. Chen, C. Liu ,and J.G. Eden, Appl. Phys. Lett., 85(21), 2004. " Microdischarge devices with 10 or 30 micron square silicon cathode cavities: pd scaling and production or the XeO excimer"

6. S.-J. Park, K.-H. Park ,and J.G. Eden, Appl. Phys. Lett., 84(22), p4481-4483, 2004. " Carbon nanotube-enhanced performance of microplasma devices"

5. S.-J. Park, K.-F. Chen ,and J. G. Eden, Lasers and Electro-Optics Society (LEOS). The 17th Annual Meeting of the IEEE, 1 ,2004. " Flexible microdischarge arrays:large scale fabrication and AC operation"

4. N.P. Ostrom and J.G. Eden, Lasers and Electro-Optics Society (LEOS). The 17th Annual Meeting of the IEEE, 1 ,2004. " Photodetection with silicon pyramidal microdischarge devices"

3. S.-J. Park, K.-F. Chen ,and J. G. Eden, Lasers and Electro-Optics Society (LEOS). The 17th Annual Meeting of the IEEE, 1 ,2004. " Large scale arrays of microdischarge devices fabricated in Si"

2. N.P. Ostrom, B.A. Vojak, and J.G. Eden, Plasma Sources Science and Technology, 13( 2), 2004. " Radio frequency (10 - 23 MHz) - assisted excitation of a microdischarge with a piezoelectric transformer"

1. S.-J. Park, K.-H. Park ,and J.G. Eden, Electronic Letters, 40(9), 2004. " Integration of carbon nanotubes with microplasma devices cathodes: reduction in operating and ignition voltages"

2003

8. Senin, A.A.; Tran, H.C.; Gao, J.; Lu, Z.H.; Zhu, C.J.; Oldenburg, A.L.; Allen, J.R.; Eden, J.G., Chemical Physics Letters, 381(1-2), 2003, p 53-9. "Molecular dissociation observed with an atomic wavepacket and parametric four-wave mixing"

7. Senin, A.A.; Lu, Z.H.; Zhu, C.J.; Allen, J.R.; Eden, J.G., Quantum Electronics and Laser Science (QELS). Postconference Digest (IEEE Cat No.CH37420-TBR), 2003, p 2 pp. " Observation of molecular dissociation along several exit channels with parametric four-wave mixing"

6. N.P. Ostrom, S.-J. Park, J.J. Ewing, J.G. Eden, 2003 IEEE LEOS Annual Meeting Conference Proceedings, 2003. " Photodetection in the visible and near-infrared with a silicon pyramidal microdischarge device"

5. J.G. Eden, S.-J.Park, N.P. Ostrom, S.T. McCain, C.J. Wagner, B.A. Vojak, J. Chen, C. Liu, P von Allmen, F. Zenhausern, D.J. Sadler, C. Jensen, D.L. Wilcox, and J.J. Ewing, J. Phys. D: Appl. Phys., 36, 2003. " Microplasma devices fabricated in silicon, ceramic, and metal/polymer structures: arrays, emitters and photodetectors"

4. J.G. Eden, Proceedings of SPIE - The International Society for Optical Engineering, 5231, 2003. "Microdischarge arrays in ceramic and semiconductor multilayer structures: Photonic devices for emission and detection"

3. P. von Allmen, D.J. Sadler, C. Jensen, N.P. Ostrom, S.T. McCain, B.A. Vojak, and J.G. Eden, Appl. Phys. Lett., 82(25), 2003. " Linear, segmented microdischarge array with an active length of ~1 cm: cw and pulsed operation in the rare gases and evidence of gain on the 460.30 nm transition of Xe+"

2. S.-J. Park and J.G. Eden, Electronic Letters, 39(10), 2003. " Electrical characteristics and lifetimes of microdischarge devices having thin dielectric films of aluminium oxied, boron nitride, or barium titanate"

1. P. von Allmen, S.T. McCain, N.P. Ostrom, B.A.Vojak, F.Zenhausern, C.Jensen, M. Oliver ,and J.G.Eden ,Appl. Phys. Lett., 82(16), 2003. " Ceramic microdischarge arrays with individually ballasted pixels"

2002

12. Senin, A.A., Talmadge, J.M., Eden, J.G., Mejia, E., Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Conference Edition (IEEE Cat. No.02CH37337), 2002. " Small signal gain and saturation intensity of an upconversion-pumped Ho:ZBLAN laser amplifier and oscillator"

11. Senin, A.A., Talmadge, J.M., Eden, J.G., Mejia, E., Pacific Rim Conference on Lasers and Electro-Optics, CLEO - Technical Digest, 2002. " Small signal gain and saturation intensity of an upconversion-pumped Ho:ZBLAN laser amplifier and oscillator"

10. Mejia, E.B., Senin, A.A., Talmadge, J.M., Eden, J.G., IEEE Photonics Technology Letters, 14, 11, 2002. " Gain and saturation intensity of the green Ho: ZBLAN upconversion fiber amplifier and laser"

9. P.D. Coleman, M. Lerttamrab, and J. Gao, Phys. Rev. E., 66, 066502, (2002). " Generation of single-frequency coherent transition radiation by a prebunched electron beam traversing a vacuum beam tunnel in a periodic medium"

8. Senin, A.A.; Lu, Z.; Allen, J.R.; Eden, J.G., LEOS 2002. 2002 IEEE/LEOS Annual Meeting Conference Proceedings. 15th Annual Meeting of the IEEE Lasers and Electro-Optics Society (Cat. No.02CH37369), 2002, pt. 1, p 267-8 vol.1. "Ultrafast spectroscopic tool for studying molecular dissociation"

7. S.-J. Park, J. Chen, C. Liu ,and J.G.Eden, Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Conference Edition (IEEE Cat. No.02CH37337), 2002. " Microdischarge devices on the 10 ~ 30 mu m scale: fabrication and applications"

6. S.-J. Park, J.J. Ewing and J.G. Eden, Appl. Phys. Lett., 81(24), 2002. " Photodetection in the visible, ultraviolet, and near-infrared with silicon microdischarge devices"

5. S.-J. Park and J.G. Eden, Appl. Phys. Lett., 81(22), 2002. " 13-30 micron diameter microdischarge devices: Atomic ion and molecular emission at above atmospheric pressures"

4. C.J. Zietkiewicz, B.A. Knecht, C.M. Herring, N.P. Ostrom, and Eden, J.G., Optical and Quantum Electronics, 34(10), 2002. " Design and performance of a transverse discharge, UV-preionized mercury-bromide laser"

3. J. Chen, S.-J. Park, Z. Fan,C. Liu ,and J.G. Eden, Journal of Microelectromechanical Systems, 11(5), 2002. " Development and Characterization of Micromachined Hollow Cathode Plasma Display Devices"

2. C.J. Wagner, N.P. Ostrom,S.-J. Park, J. Gao ,and J.G.Eden, IEEE Transactions on Plasma Science, 30(1), 2002. " Reduction in the Breakdown Voltage of a High-Pressure Discharge With an Array of 200-400 micron Diameter Microdischarges: Application to Arc Lamp Ignition"

1. S.-J. Park, J. Chen, C.J. Wagner, N.P. Ostrom, C. Liu ,and J.G.Eden, IEEE Journal on Selected Topics in Quantum Electronics, 8(2), 2002 " Microdischarge Arrays: A New Family of Photonic Devices"

2001

14. M.B. Efrain, A.A. Senin, J.G. Eden, LEOS Summer Topical Meeting 2001, p 33-34. " Upconversion green fiber amplifier"

13. D.S. Funk, J.G. Eden, IEEE Journal of Quantum Electronics, 37(8), p 980-992, 2001. " Laser diode-pumped holmium-doped fluorozirconate glass fiber laser in the green (λ ~ 544-549 nm): Power conversion efficiency, pump acceptance bandwidth, and excited-state kinetics"

12. S.-J. Park, J. Chen, C. Liu, J.J.Ewing ,and J.G. Eden,Optics Letters,26(22),2001 " Arrays of silicon microdischarge devices with multicomponent dielectics"

11. J. Chen, S.-J. Park, C. Liu, and J.G. Eden, TRANSDUCERS '01. EUROSENSORS XV. 11th International Conference on Solid-State Sensors and Actuators. Digest of Technical Papers, 2001. " Microdischarge device fabricated in silicon by micromachining technique with pyramidal cavity"

10. C.J. Wagner, S.-J. Park, and J.G. Eden, Appl. Phys. Lett., 78, 709, 2001 " Excitation Of A Microdischarge Device With A Reverse-Biased pn Junction "

9. S.-J. Park, J. Chen, C. Liu and J.G. Eden, Appl. Phys. Lett., 78(4), 419, 2001. " Silicon Microdischarge Devices Having Inverted Pyramidal Cathodes: Fabrication and Performance of Arrays "

8. J.G. Eden, NTIS, Jan 2001, 7p. " Microdischarges and Rare Earth-Doped Waveguide Devices: Visible and Ultraviolet Sources for Lasers and Sensors"

7. J.G. Eden, C.J. Wagner, J.Gao, N.P. Ostrom, and S.-J. Park, Appl. Phys. Lett., 79(26), 2001. " Microdischarge array-assisted ignition of a high-pressure discharge: Application to arc lamps"

6. S.-J. Park, J. Chen, C. Liu and J.G. Eden, Appl. Phys. Lett., 79(13), 2001. "Independently addressable subarrays of silicon microdischarge devices: Electrical characteristics of large (30×30) arrays and excitation of a phosphor"

5. S.-J. Park, J. Chen, C. Liu, and J.G. Eden, Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Postconference Technical Digest (IEEE Cat. No.01CH37170), 2001. " Large scale microdischarge arrays: fabrication and characterization"

4. S.-J. Park, C.J. Wagner, and J.G. Eden, IEEE Photo. Tech. Lett., 2001. " Performance of Microdischarge Devices and Arrays with Screen Electrodes "

3. S.-J. Park, J.G. Eden, 2001 Digest of LEOS Summer Topical Meetings: Advanced Semiconductor Lasers and Applications/Ultraviolet and Blue Lasers and Their Applications/Ultralong Haul DWDM Transmission and Networking/WDM Components (IEEE Cat. No.01TH8572), 2001. " Microdischarge arrays: a new family of UV sources"

2. S.-J. Park, J. Chen, C. Liu and J.G. Eden, Elect. Lett., 2001. " Arrays Of Microdischarge Devices Having 50-100 um Square Pyramidal Si Anodes and Screen Cathodes "

1. B.A.Vojak, S.-J. Park, C.J. Wagner, J. G.Eden et.al. Appl. Phys. Lett., 2001. " Multi-Stage, Monolithic Ceramic Microdischarge Device Having An Active Length of ~220 microns"

2000

7. J. Gao, F. Shen, and J.G. Eden, Phys. Rev. A 61, 043406 (2000). " Resonant above-threshold ionization at quantized laser intensities"

6. J. Gao, F. Shen, J.G. Eden, Phys. Rev. A 61( 4), p 438121-4381221, (2000). " Interpretation of high-order harmonic generation in terms of transitions between quantum Volkov states"

5. J.G. Eden, IEEE Journal on Selected Topics in Quantum Electronics, 6( 6), p 1051-1060, (2000). " From N2 (337 nm) to high-order harmonic generation: 40 years of coherent source development in the UV and VUV"

4. A. A. Senin, A. L. Oldenburg, and J. G. Eden, "Time-frequency analysis of the ultraviolet signal resulting from probe pulse scattering by atomic wavepackets." presented at the 11th International Conference for Lasers in Science, Technology and Medicine, Sept. 2000, Sochi, Russia.

3. A. L. Oldenburg, P. C. John, and J. G. Eden, "Vibrational wavepackets in the B1Pu and D1Su+ states of Cs2: Determination of improved Cs2+(X) and Cs2(B) spectroscopic constants." Journal of Chemical Physics 113, pp. 11009-18, 2000.

2. S.-J. Park, C.J. Wagner, C.M. Herring, and J.G. Eden, Appl. Phys. Lett., 77(2), 199, 2000, " Flexible Microdischarge Arrays: Metal/Polymer Devices "

1. S.-J. Park,C.J. Wagner, and J.G. Eden, LEOS 2000. 2000 IEEE Annual Meeting Conference Proceedings. 13th Annual Meeting. IEEE Lasers and Electro-Optics Society 2000 Annual Meeting (Cat. No.00CH37080), 2000. " New microdischarge devices and arrays: flexible metal/polymer structures and Si pyramidal devices"

Past - 1999

22. J. Gao, F. Shen and J.G. Eden, J. Phys. B 32, 4153 (1999).

21. P.C. John , D.J. Wheeler, J.W. Frame, and J.G. Eden, IEEE Trans. Plasma Sci., 27(1), 48, 1999, “Observation of individual particles and Coulombic solids in a microdischarge”

20. J. Gao, F. Shen, and J.G. Eden, Phys. Rev. Lett. 81, 1833 (1998). " Quantum Electrodynamic Treatment of Harmonic Generation in Intense Optical Fields"

19. J. Gao, D. Bagayoko, and D.-S. Guo, Can. J. Phys., 76, 87, (1998). " The ponderomotive four-momentum"

18. J.W. Frame, P.C. John, T.A. DeTemple, and J.G. Eden, Appl. Phys. Lett. 72(21) 2634, 1998, " Continuous-wave emission in the ultraviolet from diatomic excimers in a microdischarge "

17. J.W. Frame, P.C. John, B. Bozeman, D.J. Wheeler, T.A. DeTemple, and J.G. Eden, Conference Proceedings. LEOS'98. 11th Annual Meeting. IEEE Lasers and Electro-Optics Society 1998 Annual Meeting (Cat. No.98CH36243), 1998. "Characteristics of microdischarge devices in silicon"

16. J.W. Frame, and J.G. Eden, Elect. Lett., 34(15), 1529, 1998, " Planar microdischarge arrays "

15. J.W. Frame, D.J. Wheeler, T.A. DeTemple, and J.G. Eden Appl. Phys. Lett. 71(9) 1165, 1997, " Microdischarge devices fabricated in silicon "

14. A. L. Oldenburg and J. G. Eden, "Wavepacket dynamics and time-domain spectroscopy in atomic rubidium." [Conference Paper], Technical Digest, Quantum Electronics and Laser Sciences Conference, pp. 176-7, 1999.

13. H. C. Tran, P. C. John, and J. G. Eden, "Interaction of atomic wave packets with four-wave mixing: detection of rubidium and potassium wave packets by coherent ultraviolet emission." Optics Letters 23, pp. 70-72, 1998.

12. DS Guo, J. Gao, and A H Chu, Phys. Rev. A 54, 1087 (1996).

11. G. Rodriguez, P. C. John, and J. G. Eden, "Vibrational wave packets in the C1Pu state of Cs2: Two color pump-probe expreiments." Journal of Chemical Physics 103, pp. 10473-83, 1995.

10. C.M. Herring, S.B. Kim, J.G. Eden, and M.L. Ginter, J. Chem. Phys. 101 (6), 4561, 1994.

9. G. Rodriguez and J. G. Eden, "Dynamics of vibrational wave packets in the C1Pu state of Cs2." Chemical Physics Letters 205, pp. 371-9, 1993.

8. S.B. Kim, D.J. Kane, and J.G. Eden, Physical Review Letters 68(9) 1311, 1992, "Interactions of Ne2 Rydberg states with Dissociation and Ne2+ Ionization Continua"

7. S.B. Kim, C.M. Herring, and J.G. Eden, J. Chem. Phys. 96(2) 1016, 1992, "Electronic Structure of Ne2 below the first ionization limit"

6. S. B. Kim, D. J. Kane, and J. G. Eden, Physical Review Letters, 68(9) 1311, 1992, "Interactions of Ne2 Rydberg States with Dissociation and Ne2+ Ionizaion Continua"

5. S. B. Kim, C. M. Herring, J.G. Eden, and M.L. Ginter, J. Chem. Phys. 96(2), 1016, 1992.

4. D.J. Kane, S.B. Kim, D.C. Shannon, C.M. Herring, J.G. Eden, and M.L. Ginter, J. Chem. Phys. 96(9), 6407, 1992.

3. S.B. Kim, D.J. Kane, J.G. Eden, and M.L. Ginter, J. Chem. Phys. 94(1) 145, 1991, "Spectroscopic characterizations of the 3Sg+ and 3Pg components of nf complexes of Ne2 with n=4-6"

2. D. J. Kane, S. B. Kim, J.G. Eden, and M.L. Ginter, J. Chem. Phys. 95(6) 3877, 1991, "Laser excitation spectroscopy of Ne2 Rydberg states observed in the afterglow of a corona discharge"

1. D.J. Kane, C.J. Zietkiewicz, and J.G. Eden, Phys. Rev. A 39(9) 4906, 1989, "Observation of rotationally resolved inter-Rydberg-state spectra of 20Ne2 and 22Ne2 in the visible region"