Source: http://agnitron.com/selected-publications-authored-by-agnitron-staff/
Timestamp: 2019-04-25 08:46:03+00:00

Document:
Names in bold font are Agnitron staff*.
1. “Fast growth rate of epitaxial β–Ga2O3 by close coupled shower head MOCVD Growth” F. Alema, B. Hertog, A. Osinsky, P. Mukhopadhyay, M. Toporkov, W. V. Schoenfeld, J. Cryst. Growth 475 (2017) 77.
2. “Bandgap Engineering and MOCVD Growth of High-Quality β-(Al,Ga)2O3/ Ga2O3 Heterostructures for Power Switches” A. Osinsky, F. Alema, B. Hertog, E. Ahmadi, F. Wu, J. Speck, B. H Nieters, T. Vogt, MRS Fall 2017, Boston, MA.
3. “High-Quality Epitaxial β-Ga2O3Growth by Close Coupled Showerhead MOCVD” F. Alema, B. Hertog, A. Osinsky, E. Ahmadi, F. Wu, J. Speck, M. Bogdanov, A. Lobanova, R. Talalaev, A. Galyukov, MRS Fall 2017, Boston, MA.
4. “Experimental Study and Modeling of Ga2O3Epitaxial Growth by MOCVD in a CIS Reactor”, M. Bogdanov, A. Lobanova, R. Talalaev, A. Galyukov, F. Alema, B. Hertog, and A. Osinsky, IWGO 2017, Parma, Italy.
5. “Vertical solar blind Schottky photodiode based on homoepitaxial Ga2O3 thin film” F. Alema, B. Hertog, A. Osinsky, P. Mukhopadhyay, M. Toporkov, W. V. Schoenfeld, E. Ahmadi, J.Speck, Proc. SPIE 10105, Oxide-based Materials and Devices VIII, 101051M.
6. “Epitaxial Growth of Ga2O3 By MOCVD Using Oxygen: Experimental Study and Model Verification” M. Bogdanov, A. Lobanova, R. Talalaev, A. Galyukov, F. Alema, B.Hertog, A. Osinsky, ACCGE-21, Santa Fe, NM.
9. “Polarization-mediated Debye-screening of surface potential fluctuations in dual-channel AlN/GaN high electron mobility transistors”, D. Deen, R. Miller, A. Osinsky, B. Downey, D. Storm, D. Meyer, D. Katzer, N. Nepal, J. Appl. Phys. 120, 235704, 2016.
10. “Growth of High Mg Content Wurtzite MgZnO Epitaxial Films via Pulsed Metal Organic Chemical Vapor Deposition,” F. Alema, O. Ledyaev, R. Miller, V. Beletsky, A. Osinsky, and W. V. Schoenfeld, Journal of Crystal Growth, 435 6-11, 2016.
11.“Temperature and Pulse Duration Effects on the Growth of MgZnO via Pulsed Metal Organic Chemical Vapor Deposition,” F. Alema, O. Ledyaev, R. Miller, A. Osinsky, and W. V. Schoenfeld, Japanese Journal of Applied Physics, 2016.
12. “Pulsed-Metal Organic Chemical Vapor Deposition (PMOCVD) for Growth of Single Phase Wurtzite MgxZn1-xO Epitaxial Film with High Mg Content (x=0.51),” F. Alema, O. Ledyaev, R. Miller, V. Beletsky, A. Osinsky and W.V. Schoenfeld, MRS Advances, pp 1-6, 2016.
13. “High Mg content wurtzite phase MgxZn1-xO epitaxial film grown via pulsed-metal organic chemical vapor deposition (PMOCVD),” F.Alema, O. Ledyaev, R. Miller, V. Beletsky, B. Hertog, A. V. Osinsky, W. V. Schoenfeld, Invited paper 9749-33, SPIE Photonics West, February 13-18, 2016.
14. “Pulsed-Metal Organic Chemical Vapor Deposition (PMOCVD) for the Growth of Single Phase Wurtzite MgxZn1-xO Epitaxial Film with High Mg Content (x=0.51),” F. Alema, O. Ledyaev, R. Miller, V. Beletsky, A. Osinsky, and W.V. Schoenfeld, MRS Fall 2015, Boston, MA. November 29-December 4, 2015.
15. “Growth of High Mg Content MgxZn1-xO Epitaxial Film via Pulsed-Metal Organic Chemical Vapor Deposition (MOCVD),” Alema, O. Ledyaev, R. Miller, and A. Osinsky, European Material Research Society, Lille, France, May 11-15, 2015.
16. “High-gain Zn1-xMgxO-based ultraviolet photodetectors on Al2O3 and LiGaO2 substrates,” S. Olson, H. Liu, O. Ledyaev, B. Hertog, A. Osinsky, W. V. Schoenfeld, Phys. Stat. Sol. RRL 9, 82, 2015.
17. “High response solar-blind MgZnO photodetectors grown by molecular beam epitaxy,” W.V. Schoenfeld, M. Wei, R.C. Boutwell, H. Liu, Proc. SPIE 8987, Oxide-based Materials and Devices V, 89871P, March 8, 2014.
21. “Epitaxial Growth of Ga2O3 by Metal Organic Chemical Vapor Deposition from Various Precursors,” F. Alema, O. Ledyaev, R. Miller, B. Hertog, A. Osinsky, and Winston V. Schoenfeld, ICMOVPE-XVIII, San Diego, CA July 10-15, 2016.
22. “Pulsed-MOCVD Epitaxial Growth of High Quality, High Mg Content MgZnO Thin Film,” F. Alema, O. Ledyaev, R. Miller, B. Hertog, A. Osinsky, and W. V. Schoenfeld, ICMOVPE-XVIII, San Diego, CA July 10-15, 2016.
23. “ Substrate Temperature Induced Band Gap Tuning of MgZnO via Pulsed Metal Organic Chemical Vapor Deposition (PMOCVD),” F.Alema, O. Ledyaev, R. Miller, V. Beletsky, B. Hertog, A. Osinsky, W. V. Schoenfeld, MRS Spring 2018, Phoenix, AZ, March 28-April 1, 2016.
1. “Debye screening of interfacial potential fluctuations by polarization-mediated passivation in dual-channel AlN/GaN high electron mobility transistors,” , D.A. Deen, R.A. Miller, A.V. Osinsky, B.P. Downey, D.F. Storm, D.J. Meyer, N. Nepal, D.S. Katzer, submitted to Journal of Applied Physics, 2015.
2. “Bimodal wireless sensing with dual-channel wide bandgap heterostructure varactors,” D.A. Deen, A.V. Osinsky, R.A. Miller, Appl. Phys. Lett. 104, 093506, 2014.
3. “Enhanced AlN nanostructures for pyroelectric sensors,” Crisman, A. Drehman, R.A. Miller, A.V. Osinsky, D. Volovik, V. Vasilyev, physica status solidi (c), Special Issue: 10th International Conference on Nitride Semiconductors (ICNS-10), Volume 11, Issue 3-4, pages 517–520, April 2014.
4. “N-polar AlN thin layers grown on Si(111) by plasma-assisted MBE,” O. Ledyaev, M. Pandikunta, and S. A. Nikishin, Jpn. J. Appl. Phys. 53, 050306, 2014.
5. “Structural analysis of N-polar AlN layers grown on Si(111) substrates by high resolution X-ray diffraction,” M. Pandikunta, O. Ledyaev, V. Kuryatkov, and S. A. Nikishin, Phys. Stat. Sol. (c) 11, 487, 2014.
6. “Characterization of HVPE-grown UV LED heterostructures,” Kurin, A. Antipov, I Barash, A. Roenkov, A. Usikov, H. Helava, V. Ratnikov, N. Shmidt, A. Sakharov, S Tarasov, E. Menkovich, I. Lamkin, B. Papchenko and Y. Makarov, physica status solidi (c), Special Issue: 10th International Conference on Nitride Semiconductors (ICNS-10), Volume 11, Issue 3-4, pages 813–816, April 2014.
7. “Temperature stability of high-resistivity GaN buffer layers grown by metalorganic chemical vapor deposition,” Y. Polyakov,N. B. Smirnov, E. A. Kozhukhova, A.V. Osinsky and S. J. Pearton, J. Vac. Sci. Technol. B 31, 051208, 2013.
8. “High Electron Velocity Submicrometer AlN/GaN MOS-HEMTs on Freestanding GaN Substrates”, D. J. Meyer, D.A. Deen, D. F. Storm, M. G. Ancona, D. S. Katzer, R. Bass, J. A. Roussos, B. P. Downey, S. C. Binari, T. Gougousi, T. Paskova, E. A. Preble, K. R. Evans, IEEE Elec. Dev. Lett. Vol. 34, No. 2, Feb. 2013.
9. “AlN/GaN HEMTs with high-k ALD HfO2 or Ta2O5 gate insulation”, D. A. Deen, D. Storm, D. Meyer, D.S. Katzer, R. Bass, S. Binari. T. Gougousi, Phys. Stat. Sol. C 8, 2420, 2011.
10. “Atomic layer deposited Ta2O5 gate insulation for enhancing breakdown voltage of AlN/GaN high electron mobility transistors”, D.A. Deen, D.F. Storm, R. Bass, D.J. Meyer, D.S. Katzer, S.C. Binari, J.W. Lacis, T. Gougousi, Appl. Phys. Lett. 98, 023506, 2010.
11. “AlN/GaN insulated gate HEMTs with HfO2 gate dielectric”, D.A. Deen, S.C. Binari, D.F. Storm, D.S. Katzer, J.A. Roussos, J.C. Hackley, T. Gougousi, Elec. Lett. 45, 8, 2009.
12. “AlN/GaN Insulated-Gate HEMTs With 2.3 A/mm Output Current and 480 mS/mm Transconductance”, T. Zimmermann, D.A. Deen, Y. Cao, J. Simon, P. Fay, D. Jena, H. Xing, IEEE Elec. Dev. Lett. 29, 7, 2008.
13. “Very high channel conductivity in low-defect AlN/GaN high electron mobility transistor structures,”A. M. Dabiran, A. M. Wowchak, A.V. Osinsky, J. Xie, B. Hertog, B. Cui, D. C. Look, and P. P. Chow, Appl. Phys. Lett. 93, 082111, 2008.
14. “Wireless hydrogen sensor network using AlGaN/GaN high electron mobility transistor differential diode sensors,” X. Yu, C. Li, Z.N. Low, J. Lin, T.J. Anderson, H.T. Wang, F. Ren, , Y.L. Wang, C.Y. Chang, S.J. Pearton, C.H. Hsud, A.V. Osinsky, A. Dabiran, P. Chow, C. Balaban, J. Painterg, Sensors and Actuators B: Chemical, Volume 135, Issue 1, 10 December 2008.
15. “Very high channel conductivity in low-defect AlN/GaN high electron mobility transistor structures,” A. M. Dabiran, A. M. Wowchak, A.V. Osinsky, J. Xie, B. Hertog, B. Cui, D. C. Look, and P. P. Chow, Appl. Phys. Lett. 93, 082111, 2008.
16. “ALD Al2O3 passivated MBE-grown AlGaN/GaN HEMTs on 6H-SiC,” D.H. Kim, V. Kumar, G. Chen, A.M. Dabiran, M. Wowchak, A.V. Osinsky, I. Adesida, Electronics Letters, Volume 43, Issue 2, January 2007.
17. “Investigation of n-GaN/p-SiC/n-SiC heterostructures,” A. A. Lebedev, O. Ledyaev, A. M. Strel’chuk, A. N. Kuznetsov, A. E. Nikolaev, A. S. Zubrilov, A. A. Volkova, J. Cryst. Growth 300, 239, 2007.
18. “Growth and investigation of n-AIGaN/p-6H-SiC/n-6H-SiC heterostructures,” A. A. Lebedev, O. Ledyaev, A. M. Strel’chuk, A. N. Kuznetsov, A. E. Cherenkov, A. E. Nikolaev, A. S. Zubrilov, N. V. Seredova, A. A. Volkova, Mater. Sci. Forum 527-529, 1537, 2006.
19. “Robust detection of hydrogen using differential AlGaN/GaN high electron mobility transistor sensing diodes,”Hung-Ta Wang, T. J. Anderson, F. Ren, Changzhi Li, Zhen-Ning Low, Jenshan Lin, B. P. Gila, S. J. Pearton, A.V. Osinsky, and Amir Dabiran Appl. Phys. Lett. 89, 242111, 2006.
20. “Simulation and Fabrication of ZnMgO/ZnCdO and ZnO/GaN Light Emitting Diodes,” Sang Youn Han, H. S. Yang, Y. W. Heo, K. H. Baik, D. P. Norton, S. J. Pearton, F. Ren, A.V. Osinsky, J. W. Dong, B. Hertog, A. M. Dabiran, P. P. Chow, L. Chernyak, T. Steiner, C. J. Kao and G. C. Chi, ECS Meeting, Cancun, Mexico, October 29-November 3, 2006.
21. “Electrical properties of n-GaN/p-SiC heterojunctions,” O. Ledyaev, A. M. Strel’chuk, A. N. Kuznetsov, N. V. Seredova, A. S. Zubrilov, A. A. Volkova, A. E. Nikolaev, and A. A. Lebedev, Semiconductors 39, 1403, 2005.
22. “Optimization of conductivity in p-type GaN/InGaN-graded superlattices,”M. Z. Kauser, A.V. Osinsky, A. M. Dabiran, and S. J. Pearton, J. Appl. Phys. 97, 083715, 2005.
23. “Electrical detection of immobilized proteins with ungated AlGaN/GaN high-electron-mobility Transistors,”B. S. Kang, F. Ren, L. Wang, C. Lofton, Weihong W. Tan, S. J. Pearton, A. Dabiran, A.V. Osinsky, and P. P. Chow Appl. Phys. Lett. 87, 023508, 2005.
24. “Carrier trapping and thermal effects in GaN-based high-electron mobility transistors”, A.M. Dabiran, A.V. Osinsky, P.P. Chow, Z. Zhang, A. Madjar, S. Osinsky, J.C.M. Hwang, R.C. Fitch, J. Gillespie, G. Jessen, N. Moser, A. Cespo, , Electrochem. Soc. Proc. 380, 2004.
25. “Properties of Ir-based Ohmic contacts to AlGaN/GaN high electron mobility transistors Fitch”, R.C. Gillespie, J.K.; Moser, N.; Jenkins, T.; Sewell, J.; Via, D.; Crespo, A.; Dabiran, A.M.; Chow, P.P.; Osinsky, A.V.; La Roche, J.R.; Ren, F.; Pearton, S.J. Source: App. Phys. Lett. 84, 1495, 2004.
26. “Properties of AlN layers grown on SiC substrates in wide temperature range by HVPE,” O. Ledyaev, A. E. Cherenkov, A. E. Nikolaev, I. P. Nikitina, N. I. Kuznesov, M. S. Dunaevski, A. N. Titkov and V. A. Dmitriev, Phys. Stat. Sol. (c) 0, 474, 2002.
27. “Photoelectrical properties of AlGaN epitaxial layers grown by HVPE,” G. A. Onushkin, A. E. Nikolaev, A. V. Fomin, O. Ledyaev, A. E. Cherenkov, E. V. Kalinina, I. P. Nikitina, O. V. Kovalenkov and V. A. Dmitriev, Phys. Stat. Sol. (c) 0, 465, 2002.
28. “Growth of InGaN/GaN multiple-quantum-well blue light-emitting diodes on silicon by metalorganic vapor phase epitaxy,” Chuong A. Tran, A.V. Osinski, R. F. Karlicek Jr., I. Berishev, Appl. Phys. Lett. 75, 1494, 1999.
29. “Self-heating in high-power AlGaN-GaN HFETs”, Remis Gaska, Andrei V. Osinsky, Jin-Wei Yang, Michael S Shur,. Electron Device Letters, IEEE; V19 , pages 89 – 91, 1998.
30. “Schottky barrier photodetectors based on AlGaN,” A.V. Osinsky, S. Gangopadhyay, B. W. Lim, M. Z. Anwar, M. A. Khan, D. V. Kuksenkov and H. Temkin, Appl. Phys. Lett., 72, 742, 1998.
31. “High-temperature performance of AlGaN/GaN HFETs on SiC substrates”, Remis Gaska, Qisheng Chen, Jin-Wei W Yang, Andrei V. Osinsky,. M. Asif Khan , Michuel S Shur, Electron Device Letters, IEEE, V 18 , 1997.
32. “High-temperature performance of AlGaN/GaN HFETs on SiC substrates”, R. Gaska, Q. Chen, J.W. Yang, Andrei V. Osinsky, M. Asif Khan, Michuel S Shur, Electron Device Letters, IEEE, V 18 , 1997.
33. “Low noise p-p–-n GaN ultraviolet photodetectors,” A.V. Osinsky, S. Gangopadhyay, R. Gaska, B. Williams, M. A. Khan, D. Kuksenkov and H. Temkin, Appl. Phys. Lett. 71, 2334, 1997.
1. “Epitaxial Growth of High Quality GaN Films on Lattice Matched Metallic Layers,” A.M. Dabirana, F. Machucaa, I. Dea, R. Weissa, ECS Trans., volume 66, issue 1, 113-117, 2015.
2. “Characterization of an Mg-implanted GaN p–i–n diode,” D. Greenlee, T.J. Anderson, B.N. Feigelson, K.D. Hobart, F.J. Kub, physica status solidi (a), Article first published online: July 30, 2015.
3. “Symmetric Multicycle Rapid Thermal Annealing: Enhanced Activation of Implanted Dopants in GaN,” J.D. Greenleea, B.N. Feigelson, T.J. Anderson, J.K. Hite, K.D. Hobart, F.J. Kubb, Solid State Sci. Technol., volume 4, issue 9, P382-P386, 2015.
4. “High-speed photo-modulated spindt cathode for FELs,” C. Holland, P. Schwoebel, Todd, C.Spindt, IEEE Vacuum Nanoelectronics Conference (IVNC), 2013 26th International, July 2013.
*Some listed papers are published by staff prior to joining Agnitron and thus are representative of expertise and areas of activity of our staff.
The Agilis is a state of the art small volume, high temperature reactor MOCVD system for III-Nitride processing. This compact system is ideal for materials research and development.

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