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References

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  1. A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
    [CrossRef]
  2. P. Cérez, R. Felder, Appl. Opt. 22, 1251 (1983).
    [CrossRef] [PubMed]
  3. G. Stephan, J. Phys. Lett. Paris 44, L361 (1983).
    [CrossRef]
  4. A. Yariv, Quantum Electronics (Wiley, New York, 1975).
  5. G. Stephan, M. Trümper, to be published in Phys. Rev. A (1983).
  6. G. Stephan, H. Taleb, J. Phys. Paris 42, 1623 (1981).
  7. G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

1983 (2)

1982 (2)

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

1981 (1)

G. Stephan, H. Taleb, J. Phys. Paris 42, 1623 (1981).

Cérez, P.

Felder, R.

Le Floch, A.

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

Le Naour, R.

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

Legros, F.

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

Lenormand, J. M.

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

Pesty, C.

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

Stephan, G.

G. Stephan, J. Phys. Lett. Paris 44, L361 (1983).
[CrossRef]

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

G. Stephan, H. Taleb, J. Phys. Paris 42, 1623 (1981).

G. Stephan, M. Trümper, to be published in Phys. Rev. A (1983).

Taché, J. P.

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

Taleb, H.

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

G. Stephan, H. Taleb, J. Phys. Paris 42, 1623 (1981).

Trümper, M.

G. Stephan, M. Trümper, to be published in Phys. Rev. A (1983).

Yariv, A.

A. Yariv, Quantum Electronics (Wiley, New York, 1975).

Appl. Opt. (1)

J. Phys. Lett. Paris (2)

A. Le Floch, J. M. Lenormand, R. Le Naour, J. P. Taché, J. Phys. Lett. Paris 43, L493 (1982).
[CrossRef]

G. Stephan, J. Phys. Lett. Paris 44, L361 (1983).
[CrossRef]

J. Phys. Paris (2)

G. Stephan, H. Taleb, J. Phys. Paris 42, 1623 (1981).

G. Stephan, H. Taleb, C. Pesty, F. Legros, J. Phys. Paris 43, 255, (1982).

Other (2)

A. Yariv, Quantum Electronics (Wiley, New York, 1975).

G. Stephan, M. Trümper, to be published in Phys. Rev. A (1983).

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Figures (1)

Fig. 1
Fig. 1

(a) Laser model considered in Ref. 2: it contains two cells, one for absorption and one for amplification, (b) Quasi-hemispheric case. R is the radius of curvature of the concave mirror, L is the length of the cavity, and l0 is the distance between the plane mirror and the amplifying tube whose length is la.

Equations (6)

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L 1 = ½ { R + [ R 2 4 l 0 ( l 0 + l a ) ] 1 / 2 } .
( 1 l a c a l a 1 ) ,
q ( z ) = q 0 cos ( C z ) + C 1 sin ( C z ) C q 0 sin ( C z ) + cos ( C z ) ,
( 1 ½ c a l a 2 l a 1 / 6 c a l a 3 c a l a 1 ½ c a l a 2 ) .
L = 1 2 { R + [ R 2 4 l a 2 3 4 l 0 ( l 0 + l a ) ] 1 / 2 } .
1 q f 1 ° q f = K f ° q f 2 c a 3 ° q f .

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