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

2026

2025

1. Z. Han, J. Lee, A. Mazumder, H. Elly, S.A. Messing, A.E Mironov, and C. Bayram, Record Performance in Intrinsic, Impurity-Free Lateral Diamond Photoconductive Semiconductor Switches Appl. Phys. Lett. 126 152105, 2025.

2024

4. A.M. Zheltikov, A.V. Sokolov, Z. Yi, G.S. Agarwal, J.G. Eden, and M.O. Scully, Beam Instability of Broadband Stochastic Laser Fields Appl. Phys. B 130(191) 2024.

3. Z. Han, J. Lee, S. Messing, T. Reboli, A.E. Mironov, and C. Bayram, High Current Density Diamond Photoconductive Semiconductor Switches with a Buried, Metallic Conductive Channel IEEE Electr. Device L. 65(6) 1044–1047, 2024.

2. A.W. Steinforth and J.G. Eden, Higher-Order Fractal Transverse Modes Observed in Microlasers Opt. Express 32 6848–6864, 2024.

1. 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 Mater. 12 011103, 2024.

2023

5. 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 Eur. Phys. J. D 77(73) 2023.

4. 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 Sci. Rep. 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 J. Vac. Sci. Technol. A 41 032607, 2023.

2. J.D. Hewitt, C. Campbell, K.T. Raymond, S. Park, K.V. Desai, A.E. Mironov and J.G. Eden, CsAr, CsXe, and RbXe B2Σ+1/2 Interatomic Potentials Determined from Absorption Spectra and Calculations of Franck–Condon Factors for Free–Free Optical Transitions of Atomic Collision Pairs J. Phys. Chem. A 127(16) 3675–3683, 2023.

1. 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 Sci. T. 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 Process. Polym. 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 Sci. T. 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(1) 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-Pérot 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

3. 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.

2. 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.

1. 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.

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.G. 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.G. 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 J. Phys. D: Appl. Phys. 46 305201, 2013.

3. J.G. Eden, S.-J. 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.P. Sun, C.M. Herring, and C.J. Wagner, Plasma Science and Technology in the Limit of the Small: Microcavity Plasmas and Emerging Applications IEEE T. Plasma. Sci. 41(4) 661–675, 2013.

2. B. Li, T.J. Houlahan Jr, C. Wagner, and J. Eden, Modulating the Secondary Electron Emission Coefficient at the Base-Collector Interface of the Plasma Bipolar Junction Transistor Appl. Phys. Lett., 102 083502, 2013.

1. J.D. Hewitt, T.J. Houlahan, J.E. Gallagher, D.L. Carroll, A.D. Palla, J.T. Verdeyen, G.P. Perram, and J.G. Eden, Role of Excited State Photoionization in the 852.1 nm Cs Laser Pumped by Cs-Ar Photoassociation Appl. Phys. Lett. 102 111104, 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 T. Plasma. Sci. 40(11) 2946–2950, 2012.

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 J. Phys. D: Appl. Phys. 45 222001, 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 Appl. Phys. Lett. 101 253508, 2012.

2. J.D. Hewitt, J.D. Readle, and J.G. Eden, Observation of The Continuous Transformation of a Four Level Laser into a Two Level System Appl. Phys. Lett. 101 071102, 2012.

1. J.D Hewitt and J.G Eden, Lasing on the D lines of Sodium Pumped by Free→Free Transitions of Na-Xe Collision Pairs Appl. Phys. Lett. 101 241109, 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 T. Plasma. Sci. 39 2700–2701, 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 T. Plasma. Sci. 39 2690–2691, 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 μm IEEE T. Plasma. Sci. 39 2696–2697, 2011.

2. K.S. Kim, S.-J. Park, and J.G. Eden, Linear Arrays of Microchannel Plasmas in Monolithic Al/Al2O3 Sheets IEEE T. Plasma. Sci. 39 2698–2699, 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 T. Plasma. Sci. 39 2376–2377, 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. 97 231502, 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 27(10) 2087–2094, 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. 97 134102, 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. 97 021104, 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. 204(14) 2279–2288, 2010.

2009

2. K.S. Kim, T.L. Kim, J.K. Yoon, S.-J, Park, and J.G. Eden, Control of Cavity Cross-Section in Microplasma Devices: Luminance and Temporal Response of 200×100 and 320×160 Arrays with Parabolic Al2O3 Microcavities Appl. Phys. Lett. 94 011503, 2009.

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

2008

17. J.G. Eden, B.J. Ricconi, Y. Xiao, F. Shen, and A.A. Senin, Interactions Between Thermal Ground or Excited Atoms in the Vapor Phase: Many-Body Dipole-Dipole Effects, Molecular Dissociation, and Photoassociation Probed By Laser Spectroscopy Adv. Atom. Mol. Opt. Phys. 56 49–118, 2008.

16. J. D. Readle, C. J. Wagner, J. T. Verdeyen, D.A. Caroll, and J. G. Eden, Lasing in Cs at 894.3nm Pumped by the Dissociation of CsAr Excimers Electron. Lett. 44(25) 1466–1467, 2008.

15. K.-F. Chen, and J. G. Eden, The Plasma Transistor: A Microcavity Plasma Device Coupled with a Low Voltage, Controllable Electron Emitter Appl. Phys. Lett. 93 161501, 2008.

14. Y. Xiao, A.A. Senin, B.J. Ricconi, R. Kogler, C.J. Zhu, and J.G. Eden, 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 J. Phys. B: At. Mol.Opt. Phys. 41(18) 185101, 2008.

13. M. Lu, S.S. Choi, C.J. Wagner, J.G. Eden, and B.T. Cunningham, Label Free Biosensor Incorporating a Replica-Molded, Vertically Emitting Distributed Feedback Laser Appl. Phys. Lett. 92(26) 261502, 2008.

12. K.S. Kim, J.K. Yoon, S.-J. Park, and J.G. Eden, Intense Green Luminescence From 20000 Pixel Arrays of Al/Al2O3 Microplasma Devices With Parabolic Cross-Sectional Cavities IEEE T. Plasma Sci. 36(4) 1258–1259, 2008.

11. J. Zheng, J. Y. Kim, S.K. Lee, S.-J. Park, and J.G. Eden, Molded Arrays of Microcavities and Channels in Polymer Structures: Ultraviolet Emitting Microplasma Sources for Biophotonics IEEE T. Plasma. Sci. 36(4) 1256–1257, 2008.

10. P.A. Tchertchian, T.M. Spinka, S.-J. Park, and J.G. Eden, Parasitic Emission Suppression in Arrays of Individually Addressable Silicon Microcavity Plasma Devices IEEE T. Plasma. Sci. 36(4) 1254–1255, 2008.

9. A.J. Price, S.-J. Park, and J.G. Eden, Plasma Sheets and Cylinders Generated From Aluminum Wire Fabric IEEE T. Plasma. Sci. 36(4,1) 1252–1253, 2008.

8. T.S. Anderson, J.H. Ma, S.-J. Park, and J.G. Eden, Multichannel Microchemical Reactor Comprising Replica-Molded Microplasma Devices: Chemiluminescence and Sulfur Deposition in Ar/Cs2 Flows IEEE T. Plasma. Sci. 36(4) 1250–1251, 2008.

7. P.M. Bryant, G.C.B. Clarke, T. Kim, S.-J. Park, J.G. Eden, and J.W. Bradley, Time-Resolved Imaging of a Silicon Micro-Cavity Discharge Array IEEE T. Plasma. Sci. 36(4) 1248–1249, 2008.

6. S.H. Sung, T.M. Spinka, Y.M. Kang, A.G. Berger, S.-J. Park, and J.G. Eden, Evidence for Nearest Neighbor Coupling in Arrays of Ellipsoidal Microcavity Plasmas IEEE T. Plasma. Sci. 36(4) 1246–1247, 2008.

5. M. Lu, S.-J. Park, B.T. Cunningham, and J.G. Eden, Vertically Emitting, Dye-Doped Polymer Laser in the Green (λ~536 nm) with a Second Order Distributed Feedback Grating Fabricated by Replica Molding Opt. Comm. 281(11) 3159–3162, 2008.

4. M. Lu, S.-J. Park, B.T. Cunningham, and J.G. Eden, Low Temperature Plasma Channels Generated in Microcavity Trenches with Widths of 20-150 μm and Aspect Ratios as Large as 104:1 Appl. Phys. Lett. 92 101928, 2008.

3. J. Waskoenig, D.O'Connell, V. Schulz- von der Gathen, J. Winter, S.-J. Park, and J.G. Eden, Spatial Dynamics of the Light Emission from a Microplasma Array Appl. Phys. Lett. 92(10) 101503, 2008.

2. J.M. Hafez, J. Gao, and J.G. Eden, Imaging and Detection of Periodic, 5-100 Hz Magnetic Fields with Epitaxial Rare Earth-Iron Garnet Films Electron. Lett. 44(4) 282, 2008.

1. K.S. Kim, S.-J. Park, and J.G. Eden, Self-Patterned Aluminum Interconnects and Ring Electrodes for Arrays of Microcavity Plasma Devices Encapsulated in Al2O3 J. Phys. D: Appl. Phys. 41(1) 012004, 2008 .

2007

8. M. Lu, S. -J. Park, J. G. Eden, and B. T. Cunningham, Microplasma Devices and Arrays Fabricated by Plastic-Based Replica Molding J. of Microelectromech. S. 16(6) 1397–1402, 2007.

7. B.J. Ricconi, S.-J. Park, S.H. Sung, P.A. Tchertchian, J.G. Eden, Ultraviolet Emission from OH and ArD in Microcavity Plasma Devices Electron. Lett. 43 1194, 2007.

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

5. C.J. Zhu, Y. Xiao, A.A. Senin, J. Gao,and J.G. Eden, Quantum Beating in Rb at 18.3 THz (608 cm-1) Detected by Parametric Six-Wave Mixing and Sum-Frequency Generation in LiIO3 Phys. Rev. A: Atom., Mol., Opt. Phys. 75(5) 053405, 2007.

4. S. -J. Park, J. D. Readle, A. J. Price, J. K. Yoon and J. G. Eden, 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 J. Phys. D: Appl. Phys. 40(13) 3907–3913, 2007.

3. B.J. Ricconi, S.-J. Park, S.H. Sung, P.A. Tchertchian, J.G. Eden, OH (A2Σ+) and Rare Gas-Deuteride (NeD, ArD) Excimers Generated in Microcavity Plasmas: Ultraviolet Emission Spectra and Formation Kinetics Appl. Phys. Lett. 90(20) 201504, 2007.

2. J.M. Hafez, J. Gao, and J.G. Eden, 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 Appl. Phys. Lett. 90 132502, 2007.

1. S.-J. Park, P.A. Tchertchian, S.-H. Sung, T.M. Spinka, and J. G. Eden, Arrays of Addressable Microcavity Plasma Devices IEEE T. Plasma. Sci. 35(2) 215–222, 2007.

2006

12. S.-J. Park, K.S. Kim, A.Y. Chang, L.Z. Hua, J.C. Asinugo, T. Mehrotra, T.M. Spinka, and J.G. Eden, 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 Appl. Phys. Lett. 89 221501, 2006.

11. J.H. Seo, and J.G. Eden, Two-Dimensional Simulation of AC-Driven Microplasmas Confined to 100–300 µm Diameter Cylindrical Microcavities J. Appl. Phys. 100 123302, 2006.

10. S.-J. Park, J.G. Eden, K. Jain, and M.A. Klosner, Flexible Arrays of Ni/Polyimide/Cu Microplasma Devices with a Dielectric Barrier and Excimer Laser Ablated Microcavities Jpn. J. Appl. Phys. 45(10B) 8221–8224, 2006.

9. S.-J. Park, T. M. Spinka, and J. G. Eden, Linear Arrays of Ceramic Microcavity Plasma Devices (127–180 µm Diameter) Driven by Buried Coplanar Electrodes: Shaping the Intracavity Electric Field and Emission Profile Appl. Phys. Lett. 89, 031502, 2006.

8. J.F. Zachary, J.P. Blue, R.J. Miller, B.J. Ricconi, J.G. Eden and W.D. O’Brien, Lesions of Ultrasound-Induced Lung Hemorrhage Are Not Consistent with Thermal Injury Ultrasound Med. Biol. 32(11) 1763–1770, 2006.

7. J.G. Eden, and S.-J. Park, New Opportunities for Plasma Science in Nonequilibrium Low-Temperature Plasmas Confined to Microcavities: There's Plenty of Room at the Bottom Phys. Plasmas 13(5) 057101, 2006.

6. C.J. Wagner, and J.G.Eden, 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) Chem. Phys. Lett. 422(4–6) 372–377, 2006.

5. J.G. Eden, S.-J. Park and K.S. Kim, Arrays of Nonequilibrium Plasmas Confined to Microcavities: An Emerging Frontier in Plasma Science and Its ApplicationsPlasma Sources Sci. T. 15 S67–S74, 2006.

4. J.G. Eden, Information Display Early in the 21st Century: Overview of Selected Emissive Display Technologies Proceedings of the IEEE 94(3) 567–57, 2006.

3. K.H. Becker, K.H. Schoenbach, J.G. Eden, Microplasmas and Applications J. Phys. D: Appl. Phys. 39(3) R55–R70, 2006.

2. K.-F. Chen, N.P. Ostrom, S.-J. Park, and J.G. Eden, 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 Appl. Phys. Lett. 88 061121, 2006.

1. S.-J. Park, K.S. Kim, and J.G. Eden, 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 J. Appl. Phys. 99 026107, 2006.

2005



17. C.J. Zhu, A.A. Senin, Z.-H. Lu, J. Gao, Y. Xiao, and J.G. Eden, Polarization of Signal Wave Radiation Generated by Parametric Four-Wave Mixing in Rubidium Vapor: Ultrafast (~150-fs) and Nanosecond Time Scale Excitation Phys. Rev. A 72(2) 23811, 2005.

16. J.G. Eden and S.-J. Park, Microcavity Plasma Devices and Arrays: A New Realm of Plasma Physics and Photonic Applications Plasma Phys. Contr. F. 47(12B) B83–B92, 2005.

15. N.P. Ostrom and J.G. Eden, Microcavity Plasma Photodetectors: Photosensitivity, Dynamic Range, and the Plasma-Semiconductor Interface Appl. Phys. Lett. 87(14) 141101, 2005.

14. S.-J. Park, K.-F. Chen, S.-H. Sung, C. J. Wagner, and J. G. Eden, Implications of Microcavity Plasma Devices for New Plasma-Display-Panel Cell Structures with Improved Luminosity J. Soc. Inf. Display 13(11) 949–954, 2005.

13. J.G. Eden, S.-J. Park, N.P. Ostrom, K.-F. Chen, K.S. Kim, Large Arrays of Microcavity Plasma Devices for Active Displays and Backlighting J. Disp. Technol. 1(1) 112–117, 2005.

12. J.G. Eden, S.-J. Park, N.P. Ostrom and K.-F. Chen, Recent Advances in Microcavity Plasma Devices and Arrays: A Versatile Photonic Platform J. Phys. D: Appl. Phys. 38 1644–1648, 2005.

11. S.-J. Park, K.S. Kim, and J.G. Eden, Nanoporous Alumina as a Dielectric for Microcavity Plasma Devices: Multilayer Al/Al2O3 Structures Appl. Phys. Lett. 86 221501, 2005.

10. S.-O. Kim and J.G. Eden, Arrays of Microplasma Devices Fabricated in Photodefinable Glass and excited AC or DC by Interdigitated Electrodes IEEE Photonic. Tech. L. 17(7) 1543–1545, 2005.

9. N.P. Ostrom and J.G. Eden, Visible and Near-Ultraviolet Emission Characteristics of Ne, Ar, and Ar/N2 Excited in Silicon Microcavity Discharge Arrays IEEE T. Plasma. Sci. 33(2) 578–579, 2005.

8. N.P. Ostrom and J.G. Eden, Visible Emission Contours for Neon Plasmas in Silicon Microcavity Discharge Devices: Pressure Dependence of Spatially Resolved Fluorescence above the Anode Plane IEEE T. Plasma. Sci., 33(2) 576–577, 2005.

7. S.-J. Park and J.G. Eden, Microdischarge Devices with a Nanoporous Al2O3 Dielectric: Operation in Ne and Air IEEE T. Plasma. Sci. 33(2) 572–573, 2005.

6. S.-J. Park and J.G. Eden, Stable Microplasmas in Air Generated with a Silicon Inverted Pyramid Plasma Cathode IEEE T. Plasma. Sci. 33(2) 570–571, 2005.

5. C.J. Wagner and J.G. Eden, Xenon Microdischarge at 300–800 Torr: Laser Spectroscopy of Xe2 a3Σu+ (1u, 0u-) IEEE T. Plasma. Sci. 33(2) 568–569, 2005.

4. S.-O. Kim and J.G. Eden, Arrays of Square Cross-Section Microdischarge Devices Fabricated in Glass and Driven by Interdigitated Electrodes IEEE T. Plasma. Sci. 33(2) 566–567, 2005.

3. J.H. Cho, K.-W. Lee, S.-J. Park and J.G. Eden, Coplanar AC Discharges Between Cylindrical Electrodes with a Nanoporous Alumina Dielectric: Modular Dielectric Barrier Plasma Devices IEEE T. Plasma. Sci. 33(2) 378–379, 2005.

2. S.-J. Park, K.-F. Chen, N.P. Ostrom, and J.G. Eden, 40000 Pixel Arrays of AC-Excited Silicon Microcavity Plasma Devices Appl. Phys. Lett 86(11) 111501, 2005.

1. S.-J. Park, K.-F. Chen, N.P. Ostrom, and J.G. Eden, Arrays of AC-Excited, Silicon Microdischarge Devices as Large as 40000 (200×200) Pixels: Electrical and Optical Characteristics for Operation in Neon Electron. Lett. 41(6) 311–312, 2005.

2004

7. J.G. Eden, High-Order Harmonic Generation and Other Intense Optical Field-Matter Interactions: Review of Recent Experimental and Theoretical Advances Prog. Quant. Electron. 28(3–4) 197–246, 2004.

6. Z.H. Lu, C.J. Zhu, A.A. Senin, J.R. Allen, J. Gao, and J.G. Eden, Production and Probing of Atomic Wavepackets with Ultrafast Laser Pulses: Applications to Atomic and Molecular Dynamics IEEE. J. Quantum Elect. 10(1) 159–168, 2004.

5. J. M. Talmadge, J. Gao, M. P. Riley, R. J. Roth, S.-O. Kim, J. G. Eden, F. A. Pudonin, and I. V. Mel’nikov, Magneto-Optical Kerr Effect in Fe21Ni79 Films on Si(100): Quantum Behavior for Film Thicknesses Below ~6 nm Appl. Phys. Lett. 84(21) 4197–4199, 2004.

4. S.-J. Park, J.G. Eden, J. Chen, and C. Liu, Microdischarge Devices with 10 or 30 μm Square Silicon Cathode Cavities: pd Scaling and Production of the XeO Excimer Appl. Phys. Lett. 85(21) 4869–4871, 2004.

3. S.-J. Park, J.G. Eden, and K.-H. Park, Carbon Nanotube-Enhanced Performance of Microplasma Devices Appl. Phys. Lett. 84(22) 4481–4483, 2004.

2. N.P. Ostrom, B.A. Vojak, and J.G. Eden, Radio Frequency (10–23 MHz)-Assisted Excitation of a Microdischarge with a Piezoelectric Transformer Plasma Sources Sci. T. 13(2) 2004.

1. S.-J. Park, K.-H. Park ,and J.G. Eden, Integration of Carbon Nanotubes with Microplasma Devices Cathodes: Reduction in Operating and Ignition Voltages Electron. Lett., 40(9) 2004.

2003

5. A.A. Senin, H.C. Tran, J. Gao, Z.H. Lu, C.J. Zhu, A.L. Oldenburg, J.R. Allen, and J.G. Eden, Molecular Dissociation Observed with an Atomic Wavepacket and Parametric Four-Wave Mixing Chem. Phys. Lett. 381(1–.2) 53–59, 2003.

4. 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, Microplasma Devices Fabricated in Silicon, Ceramic, and Metal/Polymer Structures: Arrays, Emitters, and Photodetectors J. Phys. D: Appl. Phys. 36(23) 2003.

3. P. von Allmen, D.J. Sadler, C. Jensen, N.P. Ostrom, S.T. McCain, B.A. Vojak, and J.G. Eden, 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+ Appl. Phys. Lett. 82(25) 4447–4449, 2003.

2. S.-J. Park and J.G. Eden, Electrical Characteristics and Lifetimes of Microdischarge Devices Having Thin Dielectric Films of Aluminium Oxide, Boron Nitride, or Barium Titanate Electron. Lett. 39(10), 2003.

1. P. von Allmen, S.T. McCain, N.P. Ostrom, B.A.Vojak, F. Zenhausern, C. Jensen, M. Oliver ,and J.G. Eden, Ceramic Microdischarge Arrays with Individually Ballasted Pixels Appl. Phys. Lett. 82(16) 2562–2564, 2003.

2002

7. E.B. Mejia, A.A. Senin, J.M. Talmadge and J.G. Eden, Gain and Saturation Intensity of the Green Ho: ZBLAN Upconversion Fiber Amplifier and Laser IEEE Photonic. Tech. L. 14(11) 1500–1502, 2002.

6. S.-J. Park, J.G. Eden, and J.J. Ewing, Photodetection in the Visible, Ultraviolet, and Near-Infrared with Silicon Microdischarge Devices Appl. Phys. Lett. 81(24) 4529–4531, 2002.

5. S.-J. Park and J.G. Eden, 13-30 Micron Diameter Microdischarge Devices: Atomic Ion and Molecular Emission at Above Atmospheric Pressures Appl. Phys. Lett. 81(22) 4127–4129, 2002.

4. C.J. Zietkiewicz, B.A. Knecht, C.M. Herring, N.P. Ostrom, and J.G. Eden, Design and Performance of a Transverse Discharge, UV-Preionized Mercury-Bromide Laser Opt. Quant. Electron. 34(10) 1031–1044, 2002.

3. J. Chen, S.-J. Park, Z. Fan, J.G. Eden,, and C. Liu Development and Characterization of Micromachined Hollow Cathode Plasma Display Devices J. Microelectromechan. S. 11(5) 536–543, 2002.

2. C.J. Wagner, N.P. Ostrom,S.-J. Park, J. Gao, and J.G.Eden, Reduction in the Breakdown Voltage of a High-Pressure Discharge With an Array of 200-400 μm Diameter Microdischarges: Application to Arc Lamp Ignition IEEE T. on Plasma Sci. 30(1) 194–195, 2002.

1. S.-J. Park, J. Chen, C.J. Wagner, N.P. Ostrom, C. Liu, and J.G.Eden, Microdischarge Arrays: A New Family of Photonic Devices IEEE J. Sel. Top. Quant. 8(2) 387–394, 2002.

2001

9. D.S. Funk and J.G. Eden, 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 IEEE J. Quantum Elect. 37(8), 980–992, 2001.

8. S.-J. Park, J.G. Eden, J. Chen, C. Liu, and J.J.Ewing, Arrays of Silicon Microdischarge Devices with Multicomponent Dielectics Opt. Lett. 26(22) 1773–1775, 2001.

7. C.J. Wagner, S.-J. Park, and J.G. Eden, Excitation Of A Microdischarge Device With A Reverse-Biased pn Junction Appl. Phys. Lett. 78 709–711, 2001.

6. S.-J. Park, J. Chen, C. Liu and J.G. Eden, Silicon Microdischarge Devices Having Inverted Pyramidal Cathodes: Fabrication and Performance of Arrays Appl. Phys. Lett. 78(4), 419–421,2001.

5. J.G. Eden, C.J. Wagner, J.Gao, N.P. Ostrom, and S.-J. Park, Microdischarge Array-Assisted Ignition of a High-Pressure Discharge: Application to Arc Lamps Appl. Phys. Lett. 79(26) 4304–4306, 2001.

4. S.-J. Park, J.G. Eden, J. Chen and C. Liu, Independently Addressable Subarrays of Silicon Microdischarge Devices: Electrical Characteristics of Large (30×30) Arrays and Excitation of a Phosphor Appl. Phys. Lett. 79(13) 2100–2102, 2001.

3. S.-J. Park, C.J. Wagner, and J.G. Eden, Performance of Microdischarge Devices and Arrays with Screen Electrodes IEEE Photo. Tech. Lett. 13(1) 61–63, 2001.

2. S.-J. Park, J. Chen, C. Liu and J.G. Eden, Arrays Of Microdischarge Devices Having 50-100 μm Square Pyramidal Si Anodes and Screen Cathodes Elect. Lett. 37(3) 171–172, 2001.

1. B.A. Vojak, S.-J. Park, C.J. Wagner, J. G.Eden, R. Koripella, J. Burdon, F. Zenhausern, and D. L. Wilcox, Multi-Stage, Monolithic Ceramic Microdischarge Device Having An Active Length of ~0.27 mm Appl. Phys. Lett. 78 1340–1342 2001.

2000

5. J. Gao, F. Shen, and J.G. Eden, Transitions Between Stationary States of the Electron-Photon Field System: A New Mechanism for Interpreting High Optical Field Phenomena Int. J. Mod. Phys. B 14(9) 889–907, 2000.

4. J. Gao, F. Shen, J.G. Eden, Interpretation of High-Order Harmonic Generation in Terms of Transitions between Quantum Volkov States Phys. Rev. A 61(4), 438121–438122, 2000.

3. J.G. Eden, From N2 (337 nm) to High-Order Harmonic Generation: 40 Years of Coherent Source Development in the UV and VUV IEEE J. Sel. Top. Quant. 6(6), 1051–1060, 2000.

2. A. L. Oldenburg, P. C. John, and J. G. Eden, Vibrational Wavepackets in the B1Πu and D1Σu+ States of Cs2: Determination of Improved Cs2+(X) and Cs2(B) Spectroscopic Constants J. Chem. Phys. 113 11009–11018, 2000.

1. S.-J. Park, C.J. Wagner, C.M. Herring, and J.G. Eden, Flexible Microdischarge Arrays: Metal/Polymer Devices Appl. Phys. Lett., 77(2) 199–201, 2000.

1999

6. J. Gao, F. Shen and J.G. Eden, Polarization Effects and the Role of Above-Threshold Ionization Photoelectrons in High-Order Harmonic Generation: Comparison of Experiment with Quantum Electrodynamic Theory J. Phys. B- At. Mol. Opt. 32 4153, 1999.

5. J.G. Eden, R.B. Jones, and V.S. Zuev, Observation and Analysis of the Xe-I Collisional-Pair Photoassociation spectrum J. Russ. Laser Res. 20(5) 399–403, 1999.

4. K.K. King, C.M. Herring, and J.G. Eden, Laser Excitation and Photoionization Spectroscopy of the AO+ and B1 States of Indium Monoiodide: Ground State Dissociation Energy and Photodissociation Yield of In (6s2S1/2) J. Chem. Phys. 111(3) 931–937, 1999.

3. J.G. Eden, H.C. Tran, and V.S. Zuev, Photoassociation Spectrum for the Hg2(X0g+) → Hg2(D1u) Transition: The Hund's (C) Case J. Russ. Laser Res. 20(4) 342–348, 1999.

2. P.C. John , D.J. Wheeler, J.W. Frame, and J.G. Eden, Observation of Individual Particles and Coulombic Solids in a Microdischarge IEEE Trans. Plasma Sci. 27(1) 48–49, 1999.

1. J.G. Eden and J.J. Rocca, Introduction to the Issue on Short Wavelength Lasers and Applications IEEE J. Quantum Elect. 5(6) 1433–1434, 1999.

1998

7. J. Gao, F. Shen, and J.G. Eden, Quantum Electrodynamic Treatment of Harmonic Generation in Intense Optical Fields Phys. Rev. Lett. 81(9) 1833–1836, 1998.

6. J.W. Frame, and J.G. Eden, Planar Microdischarge Arrays Elect. Lett. 34(15) 1529–1531, 1998.

5. Z.G. Figen, H.C. Tran, and J.G. Eden, Collisional Quenching of Hg2 (AO+g) J. Phys. Chem. A 102(26) 4972–4975, 1998.

4. J.W. Frame, P.C. John, T.A. DeTemple, and J.G. Eden, Continuous-Wave Emission in the Ultraviolet from Diatomic Excimers in a Microdischarge Appl. Phys. Lett. 72(21) 2634–2636, 1998.

3. J.G. Eden, H.T. Tran, V.S. Zuev, Photoassociation Spectroscopy: Determination of Parameters of Potentials of Diatomic Molecules J. Russ. Laser. Res. 19(2) 116–128, 1998.

2. C.M. Herring and J.G. Eden, The 5fπ 3Πg←a 3Σ+u and 5fσ 3Σ+g←a 3Σ+u Systems of Ar2 J. Chem. Phys. 108(13) 5426–5431, 1998.

1. 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 Opt. Lett. 23(1) 70–72, 1998.

1997

6. D.S. Funk, J.G. Eden, J.S. Osinski, and B. Lu, Green Holmium-Doped Upconversion Fibre Laser Pumped by Red Semiconductor Laser Electon. Lett. 33(23) 1997.

5. J.J. Alwan and J.G. Eden, Photochemical Vapor Deposition of Wide Bandgap III-V Materials: Influence of Photochemically Generated Radicals on the Growth of Aluminum Nitride and Gallium Nitride Films Chem. Vap. Deposition 3(4) 209–217, 1997.

4. J.W. Frame, D.J. Wheeler, T.A. DeTemple, and J.G. Eden, Microdischarge Devices Fabricated in Silicon Appl. Phys. Lett. 71(9) 1165–1167, 1997.

3. J.G. Eden and V.S. Zuev, Van der Waals Molecules and Collision Pairs of Noble-Gas Atoms Ahead of a Shock Wave Front J. Russ. Laser Res. 18(3) 276–289, 1997.

2. J.H. Schloss, H.C. Tran, and J.G. Eden, Photodissociation of in Kr2F 42Γ the Ultraviolet and Near-Infrared: Wavelength Dependence of KrF (B2Σ) Yield J. Chem. Phys. 106(13) 5423–5428, 1997.

1. O. Gluschenkov, J.M. Myoung, K.H. Shim, K. Kim, Z.G. Figen, J. Gao, and J.G. Eden, Stimulated Emission at 300 K from Photopumped GaN Grown by Plasma-Assisted Molecular Beam Epitaxy with an Inductively Coupled Plasma Source Appl. Phys. Lett. 70(7) 811–813, 1997.

1996

3. H.C. Tran and J.G. Eden, Laser Excitation Spectroscopy of the B 1Σ+u(O+u) ←a 3Πg(O+g) Transition of Cd2: Vibrational Analysis and Rotational Structure J. Chem. Phys. 105(16) 6771–6777, 1996.

2. G. Rodriguez, C.M. Herring, R.D. Fraser, and J.G. Eden, Photodissociation of PbI2 in the Ultraviolet: Analysis of the A → X Band of PbI J. Opt. Soc. Am. B 13(7) 1362–1371, 1996.

1. D.S. Funk, S.B. Stevens, S.S. Wu, and J.G. Eden, Tuning, Temporal, and Spectral Characteristics of the Green (λ~549 nm), Holmium-Doped Fluorozirconate Glass Fiber Laser IEEE J. Quantum Elect. 32(4) 638–645, 1996.

1995

5. G. Rodriguez, P.C. John, and J.G. Eden, Vibrational wave packets in the C1Πu State of Cs2: Two Color Pump-Probe Experiments J. Chem. Phys. 103(24) 10473–10483, 1995.

4. D.S. Funk and J.G. Eden, Glass-Fiber Lasers in the Ultraviolet and Visible IEEE J. Sel. Top. Quant. 1(3) 784–791, 1995.

3. D.S. Funk, J.W. Carlson, and J.G. Eden, Room-Temperature Fluorozirconate Glass Fiber Laser in the Violet (412 nm) Opt. Lett. 20(13) 1474–1476, 1995.

2. B.A. Knecht, R.D. Fraser, D.J. Wheeler, and C.J. Zietkiewicz, L.D. Mikheev and V.S. Zuev, and J.G. Eden, Compact XeF (C→A) and Iodine Laser Optically Pumped by a Surface Discharge Opt. Lett. 20(9) 1011–1013, 1995.

1. R.B. Jones, H.C. Tran, and J.G. Eden, Photoabsorption of Kr+2 in the Ultraviolet: Revisited J. Chem. Phys. 102(11) 4329–4333, 1995.

1994

4. D.S. Funk, J.W. Carlson, and J.G. Eden, Ultraviolet (381 nm), Room Temperature Laser in Neodymium-Doped Fluorozirconate Fibre Electron. Lett. 30(22) 1859–1860, 1994.

3. C.M. Herring, S.B. Kim, J.G. Eden, and M.L. Ginter, Rotational Analysis of the 73Σ+ga3Σ+u System of the Ar2 Molecule J. Chem. Phys. 101(6) 4561–4571, 1994.

2. C.J. Zietkiewicz, Y.‐Y. Gu, A.M. Farkas, and J.G. Eden, Photoelectron Spectroscopy of the Multiphoton Ionization and Above Threshold Ionization of HI at 532 and 355 nm J. Chem. Phys. 101(1) 86–94, 1994.

1. R.W. Herrick, R.D. Fraser, and J.G. Eden, Fragmentation and Emission of POPOP and Coumarin Dye Vapor in an Ultraviolet‐Preionized, Transverse Discharge J. Appl. Phys. 75(3) 1293–1298, 1994.

1993

6. A.M. Farkas and J.G. Eden, Pulsed Dye Amplification and Frequency Doubling of Single Longitudinal Mode Semiconductor Lasers IEEE J. Quantum Elect. 29(12) 2923–2926, 1993.

5. J.H. Schloss, R.B. Jones, and J.G. Eden, Photoassociation of Kr–F Collision Pairs in the Ultraviolet J. Chem. Phys. 99(9) 6483–6494, 1993.

4. D.J. Kane, C.C. Abele, R.D. Fraser, D.C. Shannon, J.G. Eden, and M.L. Ginter, Rydberg States of the Kr2 Molecule J. Chem. Phys. 99(1) 99–112, 1993.

3. G. Rodriguez and J.G. Eden, Dynamics of Vibrational Wave Packets in the C1Πu State of Cs2 Chem. Phys. Lett. 205 371–379, 1993.

2. R.B. Jones, J.H. Schloss, and J.G. Eden, Excitation Spectra for the Photoassociation of Kr–F and Xe–I Collision Pairs in the Ultraviolet (208–258 nm) J. Chem. Phys. 98(6) 4317–4334, 1993.

1. D.S. Funk, S.B. Stevens, and J.G. Eden, Excitation Spectra of the Green Ho:Fluorozirconate Glass Fiber Laser IEEE Photonic. Tech. L. 5(2) 154–157, 1993.

1992

6. P.C. John, J.J. Alwan, and J.G. Eden, Photochemical Growth of GaN and AlN on Sapphire (0001) and GaAs(100) Thin Solid Films 218(1–2) 75–79, 1992.

5. D.J. Kane, S.B. Kim, D.C. Shannon, C.M. Herring, J.G. Eden, and M.L. Ginter, Rydberg States of the Ar2 Molecule J. Chem. Phys. 96(9) 6407–6422, 1992.

4. S.B. Kim, D.J. Kane, and J.G. Eden, Interactions of Ne2 Rydberg States with Dissociation and Ne2+ (X2Σ+𝑢, 𝑣+=0–2) Ionizaion Continua Phys. Rev. Lett. 68(9) 1311–1314, 1992.

3. J.H. Schloss, R.B. Jones, and J.G. Eden, Wavelength Dependence of the Photoassociation of Kr ( 4p6 1S0)-F ( 2p5 2P ) Collision Pairs Chem. Phys. Lett. 191(1–2) 195–202, 1992.

2. R.B. Jones, J.H. Schloss, and J.G. Eden, Discharge‐Excited Free Jet Source of Rare Gas‐Halide and Oxide Molecules J. Appl. Phys. 71(4) 1674–1682, 1992.

1. S.B. Kim, C.M. Herring, J.G. Eden, and M.L. Ginter, Electronic Structure of Ne2 Below the First Ionization Limit J. Chem. Phys. 96(2) 1016–1029, 1992.

1991

4. A. Garscadden, M.J. Kushner, and J.G. Eden, Plasma Physics Issues in Gas Discharge Laser Development IEEE T. Plasma Sci. 19(6) 1013–1031, 1991.

3. G. Rodriguez and J.G. Eden, Bound→Free Emission Spectra and Photoassociation of 114Cd2 and 64Zn2 J. Chem. Phys. 95(8) 5539–5552, 1991.

2. D.J. Kane, S.B. Kim, J.G. Eden, and M.L. Ginter, Laser Excitation Spectroscopy of Ne2 npπ Πg Rydberg States Observed in the Afterglow of a Corona Discharge J. Chem. Phys. 95(6) 3877–3887, 1991.

1. S.B. Kim, D.J. Kane, J.G. Eden, and M.L. Ginter, Spectroscopic Characterizations of the 3Σ+g and 3Πg Components of nf Complexes of Ne2 with n=4–6 J. Chem. Phys. 94(1) 145–152, 1991.

1990

1. K.Y. Kane and J.G. Eden, Enhanced Performance of the Iodine Monofluoride (491 nm) Laser IEEE J. Quantum Elect. 26(9) 1620–1623, 1990.

1989

7. P.K. York, J.G. Eden, J.J. Coleman, G.E. Fernández, and K.J. Beernink, Ultraviolet Laser‐Assisted Metalorganic Chemical Vapor Deposition of GaAs J. Appl. Phys. 66(10) 5001–5008, 1989.

6. J.H. Schloss and J.G. Eden, Excited‐State Absorption in HgBr Appl. Phys. Lett. 55(13) 1282–1284, 1989.

5. H.H. Burke, I.P. Herman, V. Tavitian, and J.G. Eden, Laser Photochemical Deposition of Germanium‐Silicon Alloy Thin Films Appl. Phys. Lett. 55(3) 253–255, 1989.

4. C.J. Kiely, V. Tavitian, C. Jones, and J.G. Eden, NH3 as a Photosensitizer in the Epitaxial Growth of Ge on GaAs by Laser Photochemical Vapor Deposition Appl. Phys. Lett. 55(1) 65–67, 1989.

3. C.J. Kiely, V. Tavitian, and J.G. Eden, Microstructural Studies of Epitaxial Ge Films Grown on [100] GaAs by Laser Photochemical Vapor Deposition J. Appl. Phys. 65(10) 3883–3895, 1989.

2. P.K. York, J.G. Eden, J.J. Coleman, G.E. Fernández, and K.J. Beernink, Low‐Temperature Laser Photochemical Vapor Deposition of GaAs Appl. Phys. Lett. 54(19) 1866–1868, 1989.

1. D.J. Kane, C.J. Zietkiewicz, and J.G. Eden, Observation of Rotationally Resolved Inter-Rydberg-State Spectra of 20Ne2 and 22Ne2 in the Visible Region Phys. Rev. A 39(9) 4906, 1989.

1988

5. D.C. Shannon and J.G. Eden, Intracavity, Laser Absorption Spectroscopy of Ar2: Aπu5p and Aσu5p Rydberg States J. Chem. Phys. 89(11) 6644–6652, 1988.

4. V. Tavitian, C.J. Kiely, D.P. Geohegan, and J.G. Eden, Epitaxial Growth of Ge Films on GaAs (285–415 °C) by Laser Photochemical Vapor Deposition Appl. Phys. Lett. 52(20) 1710–1712, 1988.

3. D.B. Geohegan and J.G. Eden, Absorption Spectrum of Kr2F(4 2Γ) in the Near Ultraviolet and Visible (335≤λ≤600 nm): Comparison with Kr+2(1(1/2)u) Measurements J. Chem. Phys. 89(6) 3410–3427, 1988.

2. D.J. Kane and J.G. Eden, Inter-Rydberg Laser Spectroscopy of ArKr Chem. Phys. Lett. 144(1) 72–78, 1988.

1. D.C. Shannon, K.P. Killeen, and J.G. Eden, Br2 Ion Pair State Formation by Electron Beam Excitation J. Chem. Phys. 88(3) 1719–1731, 1988.

1987

2. D.P. Geohegan and J.G. Eden, Xe2Cl and Kr2F Excited State (4 2Γ) Absorption Spectra: Measurements of Absolute Cross Sections Chem. Phys. Lett. 139(6) 519–524, 1987.

1. D.B. Geohegan, A.W. McCown, and J.G. Eden, Absolute Photoionization Cross Sections for Kr(5s) and Kr2 5s 3Σ+u (1u, 0-u) Excited States at 248 nm J. Chem. Phys. 86(2) 577–587, 1987.

1986

10. D.E. Johnson and J.G. Eden, High-Temperature, Alkali-Rare-Gas Optical Cell Rev. Sci. Instrum. 57(12) 2976–2978, 1986.

9. D.P. Greene, K.P. Killeen, and J.G. Eden, Excitation of the HgBr B2Σ+1/2←X2Σ+1/2Band in the Ultraviolet J. Opt. Soc. Am. B 3(10) 1282–1287, 1986.

8. D.P. Greene, K.P. Killeen, and J.G. Eden, Excited State, Charge Transfer Absorption Spectrum of HgBr in the Blue (λ∼447 nm) J. Chem. Phys. 85(6) 3188–3193, 1986.

7. M.N. Ediger and J.G. Eden, Excitation Spectra of the np 3Πg, n′p 3Σ+g←5s 3Σ+u (1u,0u) Rydberg series of Kr2 J. Chem. Phys. 85(4) 1757–1766, 1986.

6. K.P. Killeen and J.G. Eden, Gerade Rydberg States and ns 3Σ+u (1u,0 u) Photoionization Spectra of the Rare Gas Dimers (n=2–6) J. Chem. Phys. 84(11) 6048–6074, 1986.

5. M.N. Ediger and J.G. Eden, Excitation Spectroscopy of Kr2 Rydberg States Chem. Phys. Lett. 126(2) 158–162, 1986.

4. D.P. Greene, K.P. Killeen, and J.G. Eden, X2Σ→B2Σ Absorption Band of HgBr: Optically Pumped 502‐nm Laser Appl. Phys. Lett. 48(18) 1175–1177, 1986.

3. D.B. Geohegan, A.W. McCown, and J.G. Eden, XeCl Laser Power Enhancement with an External Ultraviolet Laser IEEE J. Quantum Elect. 22(4) 501–504, 1986.

2. J.G. Eden, Photochemical Processing of Semiconductors: New Applications for Visible and Ultraviolet Lasers IEEE Circuits Device 2(1) 18–24, 1986.

1. D.B. Geohegan, A.W. McCown, and J.G. Eden, Resonantly Enhanced Three-Photon Ionization of Krypton Phys. Rev. A 33(1) 269–275, 1986.

1985

11. K. P. Killeen and J.G. Eden, Observation of ns 3Σ+u(1u, 0u)→mp 3Πg Rydberg Transitions of Ar2 (n=4; 5≤m≤15) and Kr2(n=5; 6≤m≤16) in Absorption J. Chem. Phys. 83(12) 6209–6218, 1985.

10. J.F. Osmundsen, C.C. Abele, and J.G. Eden, Multiphoton Dissociation of GeH4: Ultraviolet Emission Spectrum of GeH J. Chem. Phys. 83(5) 2159–2161, 1985.

9. D.B. Geohegan, A.W. McCown, and J.G. Eden, Interaction of Ultraviolet Laser Radiation with a XeCl Laser J. Opt. Soc. Am. B 2(6) 925–930, 1985.

8. A.W. McCown, M.N. Ediger, D.B. Geohegan, and J.G. Eden, Absorption of Electronically Excited Xe2Cl in the Ultraviolet J. Chem. Phys. 82(11) 4862–4866, 1985.

7. D.E. Johnson and J.G. Eden, Continua in the Visible Absorption Spectrum of K2 J. Opt. Soc. Am. B 2(5) 721–728, 1985.

6. J.F. Osmundsen, C.C. Abele, and J.G. Eden, Activation Energy and Spectroscopy of the Growth of Germanium Films by Ultraviolet Laser‐Assisted Chemical Vapor Deposition J. Appl. Phys. 57(8) 2921–2930, 1985.

5. D.E. Johnson and J.G. Eden, KXe Excimer Absorption and S→D, S→F Collision Induced Satellites in K–Xe Mixtures J. Chem. Phys. 82(7) 2927–2934, 1985.

4. D.P. Greene and J.G. Eden, Transient Absorption in a Cadmium Monoiodine Laser Discharge Opt. Commun. 53(4) 263–268, 1985.

3. K.P. Killeen and J.G. Eden, Coupling of the Green (506-nm) and Ultraviolet (342-nm) Emission Bands of I2 J. Opt. Soc. Am. B 2(3) 430–432, 1985.

2. D.P. Greene and J.G. Eden, Injection Locking and Saturation Intensity of a Cadmium Iodide Laser Opt. Lett. 10(2) 59–61, 1985.

1. D.P. Greene and J.G. Eden, Origin of the 454 nm Bound→Free Absorption Band of Cadmium Monoiodide (114CdI) J. Chem. Phys. 82(2) 702–708, 1985.

1984

4. D.B. Geohegan, A.W. McCown, and J.G. Eden, Photoionization of Vapor Phase Thallium and Indium Monohalides in the Ultraviolet: Absolute Cross Sections and Photofragment Spectroscopy by Photodetachment of I J. Chem. Phys. 81(12) 5336–5351, 1984.

3. D.B. Geohegan and J.G. Eden, Column IIIA Metal Film Deposition by Dissociative Photoionization of Metal Halide Vapors Appl. Phys. Lett. 45(10) 1146–1148, 1984.

2. A.W. McCown and J.G. Eden, Ultraviolet Photoassociative Production of XeCl(B,C) Molecules in Xe/Cl2 Gas Mixtures: Radiative Lifetime of Xe2Cl(4 2Γ) J. Chem. Phys. 81(7) 2933–2938, 1984.

1. A.W. McCown, M.N. Ediger, and J.G. Eden, Photoionization of Rare-Gas-Dimer Excited States: Experimental Measurements of Absolute Cross Sections for Xe2*(0u+,1g,2g) in the Ultraviolet (248≤λ≤351 nm) Phys. Rev. A 29(5) 2611–2626, 1984.

1983

8. A.W. McCown, M.N. Ediger, and J.G. Eden, Photoabsorption Spectrum of Xe2+ 1(12)u from 248 to 351 nm Phys. Rev. A 28(6) 3365–3371, 1983.

7. D.P. Greene and J.G. Eden, Cd (63S1→ 53P1 ) Laser at 480 nm Pumped by a Transverse Discharge IEEE J. Quantum Elect. 19(12) 1739–1741, 1983.

6. D.E. Johnson and J.G. Eden, Lasing on the Lithium Resonance Line at 670.7 nm IEEE J. Quantum Elect. 19(10) 1462, 1983.

5. K.P. Killeen and J.G. Eden, Gain on the Green (504 nm) Excimer Band of I2 Appl. Phys. Lett. 43(6) 539–541, 1983.

4. A.W. McCown, M.N. Ediger, S.M. Stazak, and J.G. Eden, Ultraviolet Photodissociation of Xe+2 and Kr+2 ⁢(12)u: Detection of Rare-Gas Dimer Ions in Real Time Phys. Rev. A 28(3) 1440–1445, 1983.

3. D.P Greene and J.G. Eden, Lasing on the B→X band of Cadmium Monoiodide (CdI) and 114CdI in a UV‐Preionized, Transverse Discharge Appl. Phys. Lett. 43(5) 418–420, 1983.

2. M.D. Ediger, A.W. McCown, and J.G. Eden, Spectroscopy and Efficiency of the 200HgBr81 and 64Znl Photodissociation Lasers IEEE J. Quantum Elect. 19(3) 263–266, 1983.

1. D.P. Greene and J.G. Eden, Discharge Pumped ZnI (599–606 nm) and CdI (653–662 nm) Amplifiers Appl. Phys. Lett. 42(1) 20–22, 1983.

1982

7. A.W. McCown, M.N. Ediger, and J.G. Eden, Two Photon Ionization of Xenon at 193 nm Phys. Rev. A 26(6) 3318–3324, 1982.

6. D.E. Johnson and J.G. Eden, Iron Diiodide Photodissociation Laser IEEE J. Quantum Elect. 18(11) 1836–1838, 1982.

5. A.W. McCown, M.N. Ediger, and J.G. Eden, Reconantly Enhanced, Three-Photon Ionization of Xe: Optically Pumped Rare-Gas Laser Phys. Rev. A 26(4) 2281–2284, 1982.

4. M.L. Dlabal and J.G. Eden, On the Upper State Formation Kinetics and Line Tunability of the Iodine Monofluoride Discharge Laser J. Appl. Phys. 53(6) 4503–4505, 1982.

3. A.W. McCown, M.N. Ediger, and J.G. Eden, Quenching Kinetics and Small Signal Gain Spectrum of the ZnI Photodissociation Laser Opt. Commun. 40(3) 190–194, 1982.

2. R.W. Andreatta, C.C. Abele, J.F. Osmundsen, J.G. Eden, D. Lubben, and J.E. Greene, Low‐Temperature Growth of Polycrystalline Si and Ge Films by Ultraviolet Laser Photodissociation of Silane and Germane Appl. Phys. Lett. 40(2) 183–185, 1982.

1. M.D. Ediger, A.W. McCown, and J.G. Eden, CdI and CdBr Photodissociation Lasers at 655 and 811 nm: CdI Spectrum Identification and Enhanced Laser Output with 114CdI2 Appl. Phys. Lett. 40(2) 99–101, 1982.

1981

3. A.W. McCown and J.G. Eden, ZnI (B→X) Laser: 600–604 nm Appl. Phys. Lett. 39(5) 371–373, 1981.

2. S.B. Hutchinson, J.T. Verdeyen, and J.G. Eden, I* 6s 4P Collisional Quenching: Application to the IF 491‐nm Laser J. Appl. Phys. 52(7) 4780–4784, 1981.

1. M.L. Dlabal and J.G. Eden, Gain and Transient Absoprtion Profiles for the Iodine Monofluoride 490-nm and Iodine Monochloride Bands under Dischage Excitation Appl. Phys. Lett. 38(7) 489–491, 1981.

1980

2. M.L. Dlabal, S.B. Hutchinson, J.G. Eden, and J.T. Verdeyen, Multiline (480–496 nm) Discharge‐Pumped Iodine Monofluoride Laser Appl. Phys. Lett. 37 873–876, 1980.

1. S.B. Hutchison, J.G. Eden, and J.T. Verdeyen, Iodine Monofluoride Emission Spectrum and Formation Kinetics in Electron‐Beam‐Produced Plasmas Appl. Phys. Lett. 37(4) 374–376, 1980.