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π/2 Pulse Shaping via Inverse Scattering of Central Potentials


Abstract

It is shown that the inversion of the undamped Bloch equation for an amplitude-modulated broadband π/2 pulse can be precisely treated as an inverse scattering problem for a Schrodinger equation on the positive semiaxis. The pulse envelope is closely related to the central potential and asymptotically the wave function takes the form of a regular solution of the radial Schrodinger equation for s-wave scattering. An integral equation, which allows the calculation of the pulse amplitude (the potential) from the phase shift of the asymptotic solution, is derived. An exact analytical inversion of the integral equation shows that the detuning-independent π/2 pulse amplitude is given by a delta function. The equation also provides a means to calculate numerically approximate π/2 pulses for broadband excitation.

Keywords

References

  1. Theory of Coherent Atomic Excitation v.Ⅰ Shore, B. W.
  2. Advan. Magn. Reson. v.12 Warren, W. S.;Silver, M. S.
  3. Sov. Phys.--JETP v.34 Zakharov, V. E.;Shabat, A. B.
  4. Func. Anal. Appl. v.8
  5. Phys. Rev. Lett. v.30 Ablowitz, M. J.;Kaup, D. J.;Newell, A. C.;Segur, H.
  6. Phys. Rev. Lett. v.31
  7. Stud. Appl. Math. v.53
  8. Spectral Tra nsform and Solitons I Calogero, F.;Degasperis, A.
  9. Methods of Inverse Problems in Physics Ghosh Roy, D. N.
  10. Inverse Probl. v.2 Gruunbaum, A.;Hasenfeld, A.
  11. Inverse Probl. v.4
  12. J. Mag. Res. v.72 Hasenfeld, A.
  13. Phys. Rev. v.A38 Hasenfeld, A.;Hammes, S.;Warren, W. S.
  14. Rev. Mod. Phys. v.43 Lamb, Jr., G. L.
  15. Phys. Rev. Lett. v.31
  16. Elements of Soliton Theory
  17. Phys. Rev. v.A23 Michalska-Trautman, R.
  18. Phys. Rev. v.46
  19. Phys. Rev. Lett. v.62 Zax, D. B.;Vega, S.
  20. Rev. Mod. Phys. v.21 Bargmann, V.
  21. Quantum Mechanics(3rd ed.) Landau, L. D.;Lifshitz, E. M.
  22. Phys. Rev. Lett. v.18 McCall, S. L.;Hahn, E. L.
  23. Phys. Rev. v.183
  24. Rev. Mod. Phys. v.51 Haus, H.
  25. Nuovo Cimento v.108B Lee, C. J.
  26. Rev. Mod. Phys. v.46 Buck, U.
  27. Quantum Mechanics v.Ⅰ Messiah, A.