Geoscience Reference
In-Depth Information
3. M. T. Montgomery and R. J. Kallenbach, A theory for vortex Rossby-waves
and its application to spriral bands and intensity changes in hurricanes,
Quart. J. Roy. Meteorol. Soc.
123
(1997) 434-565.
4. S. Nong and K. A. Emanuel, A numerical study of the genesis of concentric
eyewalls in hurricane,
Quart. J. Roy. Meteorol. Soc.
129
(2003) 3323-3338.
5. J. Y. Peng, J. D. Jou, M. S. Peng, J. Fang and R. S. Wu, The formation of
concentric eyewalls with heat sink in a simple tropical cyclone model,
Terrest .
Atmos. Ocean. Sci.
17
(2006) 111-128.
6. W. H. Schubert, J. J. Hack, P. L. Silva Dias and S. R. Fulton, Geostrophic
adjustment in an axisymmetric vortex,
J. Atmos. Sci.
37
(1980) 1461-4483.
7. L. J. Shapiro and H. E. Wiloughby, The response of balanced hurricanes to
local sources of heat and momentum,
J. Atmos. Sci.
39
(1982) 373-894.
8. T. L. Shen, Y. X. Tian, X. Z. Ge, W. S. Lu and D. H. Chen,
Numerical
Weather Prediction
(Beijing Meteorology Press, 2003), pp. 145 (in Chinese).
9. H. E. Willoughby, J. A. Clos and M. G. Shoreibah, Concentric eye walls,
secondary wind maxima, and the evolution of the hurricane vortex,
J. Atmos.
Sci.
39
(1982) 394-511.
10. H. E. Willoughby, H. L. Jin, St. J. Lord and J. M. Piotrowicz, Hurricane
structure and evolution as simulated by an axisymmetric nonhydrostatic
numerical model,
J. Atmos. Sci.
41
(1984) 1161-9186.
11. H. E. Willoughby, The dynamics of the tropical cyclone core,
Aust. Met. Mag.
36
(1988) 181-391.
12. H. E. Willoughby, J. M. Masters and C. W. Landsea, A record minimum
sea level pressure observed in Hurricane Gilbert,
Mon. Wea. Rev.
117
(1989)
2824-2828.
