Publications

 

 

Book

 

 
   
  1. O. Shafrir, E. Paperno, and A. Plotkin, “Magnetic Tracking with a Flat Transmitter,“ Lambert Academic Publishing, 2010.

 

 

 

Chapters in books  
 
  1. B. Z. Kaplan and E. Paperno, “Special solutions of Stoner-Wohlfarth equation and their applications for magnetoresistive sensors,“ a chapter in a book of the Series “Studies in Applied Electromagnetics,“ IOS Press, the Netherlands, 1996.

  2. I. Sasada, E. Paperno, and P. Ripka, “Testing and calibration instruments,“ a chapter in a book: Magnetic sensors and magnetometers, Boston-London: Artech House, 2001.

  3. A. Grosz and E. Paperno, “Low-frequency search coil magnetometers,“ a chapter in a book Smart sensors technologies, CRC Press.

  4. V. V. Yashchuk, S.-K. Lee, and E. Paperno, “Magnetic shielding,“ a chapter in a book: Optical magnetometry, Cambridge University Press.

 

 

 

Refereed articles in scientific journals

(since 1994)

 

 
 
  1. B. Z. Kaplan and E. Paperno, “New method for extracting signals generated by magnetoresistive sensors,“ IEEE Trans. Magn., vol. 30, pp. 4614-4616, 1994.

  2. E. Paperno and B. Z. Kaplan, “Simultaneous measurement of two dc magnetic field components by a single magnetoresistor,“ IEEE Trans. Magn., vol. 31, pp. 2269-2273, 1995.

  3. E. Paperno and B. Z. Kaplan, “Suppression of Barkhausen noise in magnetoresistive sensors employing ac bias,“ IEEE Trans. Magn., vol. 31, pp. 3161-3163, 1995.

  4. B. Z. Kaplan, E. Paperno, and L. Frumkis, “The duality that relates magnetic noise to electric shot noise,“ IEEE Trans. Magn., vol. 32, pp. 4914-4916, 1996.

  5. B. Z. Kaplan, E. Paperno, and D. I. Flynn, “In-plane vector magnetometer employing a single unbiased magnetoresistor,“ IEEE Trans. Magn. vol. 34, pp. 253-258, 1998.

  6. E. Paperno and I. Sasada, “Effect of magnetic anisotropy on magnetic shaking,“ J. Appl. Phys., vol. 85, pp. 4645-4647, 1999.

  7. K. Oshita, I. Sasada, H. Naka, E. Paperno, “Method for expanding the uniformly shielded area in a short-length open-ended cylindrical magnetic shield,“ J. Appl. Phys., vol. 85, pp. 4642-4644, 1999.

  8. E. Paperno, “Charts for estimating the axial shielding factors of open-ended cylindrical shields,“ IEEE Ttrans. Magn., vol. 35, pp. 3940-3943, 1999.

  9. E. Paperno, I Sasada, and H. Naka, “Self-compensation of the residual field gradient in double-shell open-ended cylindrical axial magnetic shields,“ IEEE Ttrans. Magn., vol. 35, pp. 3943-3945, 1999.

  10. I. Sasada, E. Paperno, and H. Koide, “Design of a large-scale vertical open-structure vertical cylindrical shield employing magnetic shaking,“ J. Appl. Phys., vol. 87, pp. 5962-5964, 2000.

  11. E. Paperno, H. Koide, and I. Sasada, “A new estimation of the axial shielding factors with multi-shell cylindrical magnetic shields,“ J. Appl. Phys., vol. 87, pp. 5959–5961, 2000.

  12. E. Paperno and I. Sasada, “Magnetic circuit approach to magnetic shielding,“ IEE Trans. Magn., vol. 24, pp. 40-44, 2000.

  13. E. Paperno, H. Koide, and I. Sasada, “Construction of human-size, open-ended, cylindrical magnetic shield of vertical setting,“ IEE Trans. Magn., vol. 24, pp. 903-906, 2000.

  14. E. Paperno, I. Sasada, and E. Leonovich, “A new method for magnetic position and orientation tracking,“ IEEE Ttrans. Magn., vol. 37, pp. 1938-1940, 2001.

  15. E. Paperno, H. Koide, and I. Sasada, “Charts for estimating the axial shielding factors for triple-shell open-ended cylindrical shields,“ IEEE Ttrans. Magn., vol. 37, pp. 2881-2883, 2001.

  16. E. Paperno, I. Sasada, and K. Tashiro, “Experimental correction of the axial shielding equation,“ IEEE Trans. Magn., vol. 38, pp. 3324-3326, 2002.

  17. E. Paperno and D. Semyonov, “A new method for eye location tracking,“ IEEE Trans. Biomed. Eng., vol. 50, pp. 1174-1179, 2003.

  18. A. Plotkin and E. Paperno, “3D magnetic tracking of a single subminiature coil with a large 2D-array of uniaxial transmitters,“ IEEE Trans. Magn., vol. 39, pp. 2295-3297, 2003.

  19. E. Paperno and P. Keisar, “Three-dimensional magnetic tracking of biaxial sensors,“ IEEE Trans. Magn., vol. 40, pp. 1530-1536, 2004.

  20. V. Sokolovsky, V. Meerovich, V. Dikovsky, and E. Paperno, “Penetration of ac magnetic field into bulk high-temperature superconductors: experiment and simulation,“ J. Appl. Phys., vol. 95, pp. 6693–6695, 2004.

  21. E. Paperno, M. Romalis and Y. Noam, “Optimization of five-shell axial magnetic shields having openings in the end-caps,“ IEEE Trans. Magn., vol. 40, pp. 2170-2172, 2004.

  22. E. Paperno and A. Plotkin, “Cylindrical induction coil to accurately imitate the ideal magnetic dipole,“ Sensors and Actuators, A (physical), vol. 112, pp. 248-252, 2004.

  23. E. Paperno, “Suppression of magnetic noise in the fundamental-mode orthogonal fluxgate,“ Sensors and Actuators, A: Physical, vol. 116, pp. 405-409, 2004.

  24. A. Plotkin and E. Paperno, “Transient-free commutation of a resonant-mode array of inductors,“ J. Appl. Phys., vol. 97, 10N507, pp. 1-3, 2005.

  25. E. Paperno, S. Peliwal, M. V. Romalis, and A. Plotkin, “Optimum shell separation for closed axial cylindrical magnetic shields,“ J. Appl. Phys., vol. 97, 10Q104, pp. 1-3, 2005.

  26. A. Plotkin, E. Paperno, A. Samohin, and I. Sasada, “Compensation of the thermal drift in the sensitivity of fundamental-mode orthogonal fluxgates,“ J. Appl. Phys., vol. 99, pp. 08B305-1–08B305-3, 2006.

  27. A. Plotkin and E. Paperno “Compensation of temperature-drift errors with no additional hardware,“ IEEE Instrum. and Meas. Mag., vol. 10, pp. 20–25, 2007.

  28. E. Paperno, E. Weiss, and A. Plotkin, “A tube-core orthogonal fluxgate operated in fundamental mode,“ IEEE Trans. Magn., vol. 44, pp. 4018–4021, 2008.

  29. A. Plotkin, V. Kucher, Y. Horn, and E. Paperno, “A new calibration procedure for magnetic tracking systems,“ IEEE Trans. Magn., vol. 44, pp. 4525–4528, 2008.

  30. A. Plotkin, E. Paperno, G. Vasserman, and S. Ronen, “Magnetic tracking of eye motion in small, fast-moving animals,“ IEEE Trans. Magn., vol. 44, pp. 4492–4495, 2008.

  31. E. Paperno and A. Grosz, “A miniature and ultralow power search coil optimized for a 20 mHz to 2 kHz frequency range,“ J. Appl. Phys., vol. 105, pp. 07E708-1–07E708-3, 2009.

  32. A. Gusarov, D. Levron, E. Paperno, R. Shuker, and A. Baranga, “3-D magnetic field measurements in a single serf atomic-magnetometer cell,“ IEEE Trans. Magn., vol. 45, pp. 4478–4481, 2009.

  33. A. Plotkin, O. Shafrir, E. Paperno and D. M. Kaplan, “Magnetic eye tracking: a new approach employing a planar transmitter,“ IEEE. Trans. Biomed. Eng., vol. 57, pp. 1209–1215, 2009.

  34. A. Grosz, E. Paperno, S. Amrusi, and E. Liverts, “Integration of the electronics and batteries inside the hollow core of a search coil,“ J. Appl. Phys., vol. 107, pp. 09E703-1–09E703-3, 2010.

  35. E. Liverts, A. Grosz, B. Zadov, M. I. Bichurin, and E. Paperno, “Modeling of the magneto-electric effect in finite-size three-layer laminates under closed-circuit conditions,“ J. Appl. Phys., vol. 107, pp. 09D814-1–09D814-3, 2010.

  36. E. Weiss, E. Paperno and A. Plotkin, “Orthogonal fluxgate employing discontinuous excitation,“ J. Appl. Phys., vol. 107, pp. 09E717-1–09E717-3, 2010.

  37. M. Ghelman, E. Paperno, D. Ginsburg, T. Mazor a, Y. Cohen, A. Osovizky, “Sub-milliwatt spectroscopic personalradiation device based on a siliconphotomultiplier,“ Nucl. Instr. and Meth., vol. A 652, pp. 866–869, 2010.

  38. A. Grosz, E. Paperno, S. Amrusi, and T. Szpruch, “Minimizing crosstalk in three-axial induction magnetometers,“ Rev. Sc. Instrum, vol. 81, pp. 125106-1–125106-9, 2010.

  39. A. Grosz, E. Paperno, S. Amrusi, and B. Zadov, “A three-axial search coil magnetometer optimized for small size, low power, and low frequencies,“ IEEE Sens. J., vol. 11, pp. 1088–1094, 2011.

  40. E. Liverts, A. Grosz, B. Zadov, M. I. Bichurin, Y. J. Pukinskiy, S. Priya, D. Viehland, and E. Paperno, “Demagnetizing factors for two parallel ferromagnetic plates and their applications in magneto-electric laminated sensors,“ J. Appl. Phys., vol. 109, pp. 07D703-1–07D703-3, 2011.

  41. A. Gusarov, D. Levron, A. Ben-Amar Baranga, E. Paperno, and Reuben Shuker, “An all-optical scalar and vector spin-exchange relaxation-free magnetometer employing on–off pump modulation,“ J. Appl. Phys. vol. 109, pp. 07E507-1–07E507-3, 2011.

  42. E. Weiss and E. Paperno “Noise investigation of the orthogonal fluxgate employing alternating dc bias,“ J. Appl. Phys. vol. 109, pp. 09E717-1–09E717-3, 2011.

  43. E. Paperno, A. Grosz, S. Amrusi, and B. Zadov, “Compensation of crosstalk in three-axial induction magnetometers,“ IEEE Trans. Instrum. Meas., vol. 60, pp. 3416–3422, 2011.

  44. B. Zadov, A. Elmalem, E. Paperno, I. Gluzman, A. Nudelman, D. Levron, A. Grosz, E. Liverts, and S. Lineykin, “Modeling of small dc magnetic field response in a trilayer magneto-electric laminate composites,“ Advances in Condensed Matter Physics, vol. 2012, pp. 1–18, 2012.

  45. V. Mor, M. Schultz, O. Sinwani, A. Grosz, E. Paperno, and L. Klein, “Planar Hall effect sensors with shape-induced effective single domain behavior,“ J. Appl. Phys. vol. 111, pp. 07E519-1–07E519-3, 2012.

  46. A. Grosz and E. Paperno, “Analytical optimization of low-frequency search coil magnetometers,“ IEEE Sens. J., vol. 12, pp. 2719–2723, 2012.

  47. E. Weiss, A. Grosz, S. Amrusi, and E. Paperno, “Orthogonal fluxgate employing selective bandpass sampling,“ IEEE Trans. Magn., vol. 11, pp. 4089–4091, 2012.

  48. E. Paperno, “Extending Blackman's formula to feedback networks with multiple dependent sources,“ IEEE Trans. Circuits Syst. II., vol. 59, pp. 658–662, 2012.

  49. M. Auslender, E. Liverts, B. Zadov, A. Elmalem, A. Zhdanov, A. Grosz, and E. Paperno, “Inverse effect of magnetostriction in magnetoelectric laminates,“ accepted for publication in Applied Physics Letters.

  50. A. Grosz, V. Mor, E. Paperno, S. Amrusi, I. Faivinov, M. Schultz, and L. Klein, Planar Hall effect sensors with subnanotesla resolution, accepted for publication in IEEE Magnetics Letters.

  51. S. Greenberg, J. Rabinowicz, R. Tsechanski, E. Paperno, “Selective state retention power gating based on gate-level analysis,” accepted for publication in IEEE Transactions on Circuits And Systems I.

     

       

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