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  1. H. J. Dewey, “Second-Harmonic Generation in KB5O8·4H2O from 217.1 to 315.0 nm,” IEEE J. Quantum Electron. QE-12, 303 (1976).
    [CrossRef]
  2. K. Kato, “Tunable UV Generation in KB5O8·4H2O to 1966Å,” IEEE J. Quantum Electron. QE-13, 544 (1977).
    [CrossRef]
  3. See, for example,V. Wilke, W. Schmidt, “Tunable Coherent Radiation Source Covering a Spectral Range from 185 to 880 nm,” Appl. Phys. 18, 177 (1979).
    [CrossRef]
  4. W. L. Glab, J. P. Hessler, “Frequency Shift and Asymmetric Line Shape of the Fourth Anti-Stokes Component of a Hydrogen Raman Shifter,” submitted to Optics Letters.
  5. K. Kato, “Second-Harmonic Generation to 2048Å in β-BaB2O4,” IEEE J. Quantum Electron. QE-22, 1013 (1986).
    [CrossRef]
  6. R. Mahon, F. S. Tomkins, “Frequency Up-Conversion to the VUV in Hg Vapor,” IEEE J. Quantum Electron. QE-18, 913 (1982).
    [CrossRef]

1986 (1)

K. Kato, “Second-Harmonic Generation to 2048Å in β-BaB2O4,” IEEE J. Quantum Electron. QE-22, 1013 (1986).
[CrossRef]

1982 (1)

R. Mahon, F. S. Tomkins, “Frequency Up-Conversion to the VUV in Hg Vapor,” IEEE J. Quantum Electron. QE-18, 913 (1982).
[CrossRef]

1979 (1)

See, for example,V. Wilke, W. Schmidt, “Tunable Coherent Radiation Source Covering a Spectral Range from 185 to 880 nm,” Appl. Phys. 18, 177 (1979).
[CrossRef]

1977 (1)

K. Kato, “Tunable UV Generation in KB5O8·4H2O to 1966Å,” IEEE J. Quantum Electron. QE-13, 544 (1977).
[CrossRef]

1976 (1)

H. J. Dewey, “Second-Harmonic Generation in KB5O8·4H2O from 217.1 to 315.0 nm,” IEEE J. Quantum Electron. QE-12, 303 (1976).
[CrossRef]

Dewey, H. J.

H. J. Dewey, “Second-Harmonic Generation in KB5O8·4H2O from 217.1 to 315.0 nm,” IEEE J. Quantum Electron. QE-12, 303 (1976).
[CrossRef]

Glab, W. L.

W. L. Glab, J. P. Hessler, “Frequency Shift and Asymmetric Line Shape of the Fourth Anti-Stokes Component of a Hydrogen Raman Shifter,” submitted to Optics Letters.

Hessler, J. P.

W. L. Glab, J. P. Hessler, “Frequency Shift and Asymmetric Line Shape of the Fourth Anti-Stokes Component of a Hydrogen Raman Shifter,” submitted to Optics Letters.

Kato, K.

K. Kato, “Second-Harmonic Generation to 2048Å in β-BaB2O4,” IEEE J. Quantum Electron. QE-22, 1013 (1986).
[CrossRef]

K. Kato, “Tunable UV Generation in KB5O8·4H2O to 1966Å,” IEEE J. Quantum Electron. QE-13, 544 (1977).
[CrossRef]

Mahon, R.

R. Mahon, F. S. Tomkins, “Frequency Up-Conversion to the VUV in Hg Vapor,” IEEE J. Quantum Electron. QE-18, 913 (1982).
[CrossRef]

Schmidt, W.

See, for example,V. Wilke, W. Schmidt, “Tunable Coherent Radiation Source Covering a Spectral Range from 185 to 880 nm,” Appl. Phys. 18, 177 (1979).
[CrossRef]

Tomkins, F. S.

R. Mahon, F. S. Tomkins, “Frequency Up-Conversion to the VUV in Hg Vapor,” IEEE J. Quantum Electron. QE-18, 913 (1982).
[CrossRef]

Wilke, V.

See, for example,V. Wilke, W. Schmidt, “Tunable Coherent Radiation Source Covering a Spectral Range from 185 to 880 nm,” Appl. Phys. 18, 177 (1979).
[CrossRef]

Appl. Phys. (1)

See, for example,V. Wilke, W. Schmidt, “Tunable Coherent Radiation Source Covering a Spectral Range from 185 to 880 nm,” Appl. Phys. 18, 177 (1979).
[CrossRef]

IEEE J. Quantum Electron. (4)

H. J. Dewey, “Second-Harmonic Generation in KB5O8·4H2O from 217.1 to 315.0 nm,” IEEE J. Quantum Electron. QE-12, 303 (1976).
[CrossRef]

K. Kato, “Tunable UV Generation in KB5O8·4H2O to 1966Å,” IEEE J. Quantum Electron. QE-13, 544 (1977).
[CrossRef]

K. Kato, “Second-Harmonic Generation to 2048Å in β-BaB2O4,” IEEE J. Quantum Electron. QE-22, 1013 (1986).
[CrossRef]

R. Mahon, F. S. Tomkins, “Frequency Up-Conversion to the VUV in Hg Vapor,” IEEE J. Quantum Electron. QE-18, 913 (1982).
[CrossRef]

Other (1)

W. L. Glab, J. P. Hessler, “Frequency Shift and Asymmetric Line Shape of the Fourth Anti-Stokes Component of a Hydrogen Raman Shifter,” submitted to Optics Letters.

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Figures (2)

Fig. 1
Fig. 1

Measured Type I phase-matching angles vs output wavelength for sum frequency generation of the third harmonic of the dye laser in β-BaB2O4. The dotted line is the prediction using the Sellmeier's equations of Ref. 5.

Fig. 2
Fig. 2

Measured efficiencies for sum frequency generation vs output wavelength. The efficiency plotted here is defined in the text.

Equations (1)

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η = E sf E vis E UV ,

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