21
(48) Lamberts, R. L., Relationship Between the Sine Wave
Response and the Distribution of Energy in the Opt
ical Image of a Line, J* Opt. Soc. Am., 48, 490
(1958)
(49) Herriott, D. R., Recording Electronic Lens Bench,
J. Opt. Soc. Am., 48, 968 (1958)
(50) Suzuki, T., Lee, S. C., and Iga, K. Measurement of
the Frequency Response of a Photographic Lens, 5th
ICO Conference Preprints, Stockholm, 1959
(51) Kapany, N.S., Optical Image Assessment, Nature, 188,
1083 (I960)
(52) Simon, J., Le Facteur de Contraste sa Determination
Visuelle et Son Application en Métrologie, Rev. d'Opt
ique, 40, 213 (1961)
(53) Sproson, W. N., and Hacking, K., New Methods of Lens
Testing and Measurement, BBC Engineering Monograph No.
50, Sept 1963
(54) Shannon, R. R., and Newman, A. H., An Instrument for
Measurement of the Optical Transfer Function, Appl.
Opt., 2, 365 (1963)
(55) Preston, K., Modulation Transfer Function Instrument
ation, Symposium, Perkin-Elmer Corporation, p. 6-1.
March, 6, 1963» also Rosenau et al.
(56) Baker, L. R., An Interferometer for Measuring the
Spatial Frequency Response of a Lens System, Proc. Phys.
Soc., 68B, 871 (1955)
(57) Kelsall, D., Optical Frequency Response Characteristics
in the Presence of Spherical Aberration Measured by an
Automatically Recording Interferometric Instrument, Proc.
Phys. Socl, 73, 465 (1959)
(58) Montgomery, A. J., New Interferometer for the Measurement
of Modulation Transfer Function, J. Opt. Soc. Am., 54,
191 (1964)
(59) Tsurata, T., A New Type Shearing Interferometer for the
Measurement of Transfer Functions of the Microscope
Objective, Appl. Opt., 2, 371 (1963)
(60) Steel, W. H., A Polarization Interferometer for the Meas
urement of Transfer Factors, Optica Acta., 11, 9 (1964)
(61) Herriott, W., A Photoelectric Lens Bench, J. Opt. Soc.
Am., 37, 472 (1947)