Comparative assessment of optical performance for the optical design of HD-DVD micro objective lens with NA 0.65 using aspheric and freeform surfaces

A micro objective lens for HD-DVD with the Numerical Aperture (NA) of 0.65 at blue laser wavelength with clear aperture diameter of 1.5 mm has been designed on acrylic material using freeform surfacing method. Optical performance evaluation parameters have been compared with bi-aspheric surfaces based objective lens design. Freeform surface based design has higher degrees of freedom compare to conventional aspheric surfaces that can reduce aberrations significantly. Maximum RMS error is 0.003λ at 0.4° and maximum RMS radius is 0.027 μm while airy disk radius is 0.3803 μm for freeform surface based design. Hence single freeform surface based design can reduce the fabrication complexity and tooling time, at the same instance provides comparable performance with bi-aspheric surfaces based design

Optical design of off-axis Cassegrain telescope using freeform surface at the secondary mirror

Freeform surfaces enable imaginative optics by providing abundant degrees of freedom for an optical designer as compared to spherical surfaces. An off-axis two-mirror–based telescope design is presented, in which the primary mirror is a concave prolate spheroid and the secondary mirror is freeform surface-based. The off-axis configuration is employed here for removing the central obscuration problem which otherwise limits the central maxima in the point spread function. In this proposed design, an extended X−Y polynomial is used as a surface descriptor for the off-axis segment of the secondary mirror. The coefficients of this extended polynomial are directly related to the Seidel aberrations, and are thus optimized here for a better control of asymmetric optical aberrations at various field points. For this design, the aperture stop is located 500 mm before the primary mirror and the entrance pupil diameter is kept as 80 mm. The effective focal length is 439 mm and covers a full field of view of 2 deg. The image quality obtained here is near diffraction limited which can be inferred from metrics such as the spot diagram and modulation transfer function

Paced QRS duration predicts left ventricular function in patients with permanent pacemakers – One-year follow-up study using equilibrium radionuclide angiography (ERNA)

Permanent pacing, being non physiological, often results in ventricular dysfunction over time. Narrower paced QRS duration from pacing the right ventricular outflow tract septum, might result in relatively preserved ventricular function over long term follow up