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References

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  1. F. Matekunas, D. W. Sweeney, W. H. Stevenson, Appl. Opt. 15, 1541 (1976).
    [CrossRef] [PubMed]
  2. W. Lee, Appl. Opt. 7, 1677 (1974).
    [CrossRef]
  3. R. L. Ransom, Appl. Opt. 14, 563 (1975).
    [CrossRef] [PubMed]
  4. L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
    [CrossRef]
  5. B. R. Brown, A. W. Lohmann, IBM J. Res. Dev. 13, 160 (1969).
    [CrossRef]
  6. Optical Engineering, Inc., Santa Rosa, California.

1976 (1)

1975 (1)

1974 (1)

W. Lee, Appl. Opt. 7, 1677 (1974).
[CrossRef]

1969 (2)

L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
[CrossRef]

B. R. Brown, A. W. Lohmann, IBM J. Res. Dev. 13, 160 (1969).
[CrossRef]

Brown, B. R.

B. R. Brown, A. W. Lohmann, IBM J. Res. Dev. 13, 160 (1969).
[CrossRef]

Hirsch, P. M.

L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
[CrossRef]

Jordon, J. A.

L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
[CrossRef]

Lee, W.

W. Lee, Appl. Opt. 7, 1677 (1974).
[CrossRef]

Lesem, L. B.

L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
[CrossRef]

Lohmann, A. W.

B. R. Brown, A. W. Lohmann, IBM J. Res. Dev. 13, 160 (1969).
[CrossRef]

Matekunas, F.

Ransom, R. L.

Stevenson, W. H.

Sweeney, D. W.

Appl. Opt. (3)

IBM J. Res. Dev. (2)

L. B. Lesem, P. M. Hirsch, J. A. Jordon, IBM J. Res. Dev. 13, 150 (1969).
[CrossRef]

B. R. Brown, A. W. Lohmann, IBM J. Res. Dev. 13, 160 (1969).
[CrossRef]

Other (1)

Optical Engineering, Inc., Santa Rosa, California.

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Figures (4)

Fig. 1
Fig. 1

The plane output mirror of a CO2 laser is replaced with a phase reflection hologram; the first diffracted order is the output beam.

Fig. 2
Fig. 2

The Calcomp plot that is used to produce the phase hologram that reconstructs the real image shown in Fig. 3.

Fig. 3
Fig. 3

The output of a small CO2 laser with the partial reflector replaced with a phase reflection hologram. The cavity length is 150 cm, and the rear mirror has a 10-m radius. The two closest points in the image are separated by 1 mm.

Fig. 4
Fig. 4

The output of the same laser as described in Fig. 3. The two letters are 1 cm high and focus 50 cm from the holographic grating.

Equations (6)

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H ( x , y ) = exp ( j 4 π λ d u { cos [ ϕ ( x , y ) - 2 π x T ] - cos ( π q ) } ) ,
q = [ sin - 1 A ( x , y ) ] / π ,
Mod T ( T q 2 ) Mod T { Mod T ( x ) + Mod T [ T ϕ ( x , y ) 2 π ] } ,
Mod T ( T - T q 2 ) Mod T { Mod T ( x ) + Mod T [ T ϕ ( x , y ) 2 π ] } ,
e n = ( - 1 n - 1 ) 2 ( n π ) 2 sin 2 ( π d λ ) ,
e 0 = 1 - sin 2 ( π d λ ) .

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