Generation and Amplification of Radiation
1. Schächter L.
Relativistic Quantum Mechanical Analysis of a Free Electron Laser,
J. Appl. Phys., 61 (8), 2718-2728, April 1987. Abstract
2. Schächter L.
Remarks on Channeling Radiation.
J. Appl. Phys., 63 (3), 712-716, (1988). Abstract
3. Schächter L. and Ron A.
Exponential Gain in a Smith-Purcell Amplifier.
Appl. Phys. Lett., 53, 828-830 (1988). Abstract
4. Schächter L. and Ron A.
Smith-Purcell Oscillator in an Exponential Gain Regime,
J. Appl. Phys. 65, 3267-3269 (1989). Abstract
5. Schächter L. and Ron A.
Smith-Purcell Free Electron Laser.
Phys. Rev. A 40 (2) 876-896 (1989). Abstract
6. Schächter L.
Remarks on the Influence of the Guiding Magnetic Field on the Performance of a Smith-Purcell Amplifier Operating in the Weak Crompton Regime.
J. Opt. Soc. Am. B Opt. Phys.(USA) 7(5), 873-876(1990). Abstract
7. Schächter L.
The Influence of the Guiding Magnetic Field on the Performance of a Smith-Purcell Amplifier Operating in the Strong Compton Regime.
J. Appl. Phys. 67, 3582-3592(1990). Abstract
8. Schächter L., Nation J. A. and G. S. Kerslick.
On the Bandwidth of a Short Traveling Wave Tube.
J. Appl. Phys., 68(11) 5874-5882 (1990). Abstract
9. Schächter L.
Cerenkov Traveling Wave Tube with a Spatially Varying Dielectric Coefficient.
Phys. Rev. A. 43(7) 3785-3794(1991). Abstract
10. Shiffler D., Ivers J.D., Kerslick G. S., Nation J.A. and Schächter L.
Sideband Development in a High-Power Traveling-Wave Tube Amplifier.
Appl. Phys. Lett. 58, 899-901(1991). Abstract
11. Shiffler D., Ivers J.D., Kerslick G.S., Nation J.A. and Schächter L..
A High Power Two Stage Traveling-Wave Tube Amplifier.
J. Appl. Phys. 70(1), 106-113(1991). Abstract
12. Schächter L., Nation J.A. and Shiffler D.
Theoretical Studies of High-Power Cerenkov Amplifiers.
J. Appl. Phys. 70(1), 114-124(1991). Abstract
13. Schächter L. and Nation J.A.
Analysis of a Traveling Wave Tube Tuned by a Cavity.
J. Appl. Phys. 70(10), 5186-5192(1991). Abstract
14. Schächter L. and Nation J.A.
Slow Wave Amplifiers and Oscillators: A Unified Study.
Phys. Rev. A. 45(12) 8820-32(1992). Abstract
15. Davis T.J., Nation.J.A. and Schächter L.
High Power Microwaves at 9GHz from an Extended Length Cavity in a Coaxial Beam Geometry.
Appl. Phys. Lett. 63(13) 1854-1856 (1993). Abstract
16. Kuang E., Davis T.J., Kerslick G. S., Nation J.A. and Schächter L.
Transit Time Isolation of a High Power Microwave Amplifier TWT.
Phys. Rev. Lett. 71(16) 2666-2669(1993). Abstract
17. Davis T.J., Nation J.A. and Schächter L.
Results from an X-Band Coaxial Extended Length Cavity.
IEEE - Trans. Plasma Science, 22, 504-510, (1994). Abstract
18. Kuang E., Davis T.J., Kirslick G.S., Nation J. A. and Schächter L.
Low Group Velocity Traveling Wave Tube Amplifiers.
IEEE - Trans. Plasma Science, 22, 511-517 (1994). Abstract
19. Schächter L. and Nation J.A.
Propagation of Electromagnetic and Space Charge Waves in Quasi-periodic Structures.
Physics of Plasmas, . 2, 889-901 (1995). Abstract
20. Schächter L. and Nation J.A.
On the Coupling Between a Quasi-periodic Structure and an Asymmetric Output Arm,
IEEE-MTT, 43(1), 42-47 (1995). Abstract
21. Schächter L.
High Efficiency Beam-Wave Interaction in Quasi-Periodic Structures
Phys. Review E. 52,.2037-2044 (1995). Abstract
22. Naqvi S.A., Kerslick G.S., Nation J.A. and Schächter L.
Resonance Shift in Relativistic Traveling Wave Amplifiers
Phys. Review E. 53 (4) 4229-4231 (1996). Abstract
23. Naqvi S.A., Kerslick G.S., Nation J.A. and Schächter L.
Axial Extraction of High-power Microwaves from Relativistic Traveling Wave Amplifiers
Appl. Phys. Lett. 69(11), 1550-2 (1996). Abstract
24. Schächter L. and J.A. Nation
Beam-quality and Guiding Magnetic Field Requirements for a High-Power Traveling Wave Amplifier Operating at 35GHz.
Physical Review E, 57, 7176-7183(1998). Abstract
25. Naqvi A.S., Nation J.A., Schächter L. and Wang Q.
IEEE Trans. Plasma Science - Special Issue, 26(3) 840-5(1998). Abstract
26. Wang P., Zhou Xu, Ivers J.D., Nation J.A, Naqvi S., and Schächter L.;
Efficient Operation of a High-Power X-band Traveling Wave Tube Amplifier
Appl. Phys. Lett., 75(16), 2506-7 (1999). Abstract
27. Banna S., Nation J.A., Schächter L. and Wang P.
Coupling of Symmetric and Asymmetric Modes in a High-Power, High-Efficiency Traveling Wave Amplifier
Physical Review E, 61(4), 4445 (2000). Abstract
28. Banna S., Nation J.A., Schächter L. and Wang P.
The Interaction of Symmetric and Asymmetric Modes in a High-Power Traveling Wave Amplifier
IEEE Plasma Science - Special Issue, 28, 798-811 (2000). Abstract
29. Wang P., Zhou Xu, Nation J.A., Banna S. and Schächter L.
Symmetric and Asymmetric Mode Interaction in High-Power Traveling Wave Amplifiers
IEEE Trans. Plasma Science, 28 (6), 2262-2271 (2000). Abstract
30. Karagodsky V., Schieber D. and Schächter L.
Enhancing X-Ray Generation by Electron-Beam-Laser Interaction in an Optical Bragg Structure
Physical Review Letters, 104(2), 024801(4), (2010). Abstract
31. Karagodsky V. and Schächter L.
High efficiency x-ray source based on inverse Compton scattering in an optical Bragg structure
Plasma Physics and Controlled Fusion, 53, 014007, (2011). Abstract
32. Schächter L. and Kimura W.D.
Vacuum Channeling Radiation by Relativistic Electrons in a Transverse Field of a Laser-Based Bessel Beam
Physical Review Letters, 114, 195501 (2015). Abstract
33. M. Voin and L. Schächter
Linear analysis of active-medium two-beam accelerator
Phys. Rev. Special Topics - Accelerators and Beams, 18, 071302 (2015). Abstract
34. Z. Toroker and L. Schächter
Deep saturation of a Cerenkov wakefield amplified by an active medium
Phys. Rev. Special Topics - Accelerators and Beams, 18, 071301 (2015). Abstract
35. A. C. Boucouvalas, A. Wilner, M. Zervas, S. Walker and L. Schächter - Guest Editors
Introduction to the Issue on Optical Waveguide Technology and Applications
IEEE J. of Selected Topics in Quantum Electronics, Vol. 22, (2) (2016).
36. Huang Hua and Levi Schächter - Guest Editors
Radial Kick in High-Efficiency Output Structures
Special Issue on High Power Microwave, Plasma, Vol. 2, 15-26 (2019). doi:10.3390/plasma2010003. Abstract