An impressively wide prime lens, the 15mm f/2.4 Firefly Lens from Irix meshes an advanced optical design with a lightweight, durable physical construction. The expansive field of view is complemented by a sophisticated optical layout that utilizes low dispersion, aspherical, and high-refractive glass elements, as well as a Neutrino coating, to render imagery
An impressively wide prime lens, the 15mm f/2.4 Firefly Lens from Irix meshes an advanced optical design with a lightweight, durable physical construction. The expansive field of view is complemented by a sophisticated optical layout that utilizes low dispersion, aspherical, and high-refractive glass elements, as well as a Neutrino coating, to render imagery
An impressively wide prime lens, the 15mm f/2.4 Firefly Lens from Irix meshes an advanced optical design with a lightweight, durable physical construction. The expansive field of view is complemented by a sophisticated optical layout that utilizes low dispersion, aspherical, and high-refractive glass elements, as well as a Neutrino coating, to render imagery
Offering a wide-angle perspective, the 15mm f / 2.4 Blackstone Lens from Irix is a sophisticated premium lens designed. Benefiting the broad field of view is an advanced optical design that features aspherical, low-dispersion, and high-refractive index glass elements to control various aberrations and distortions, as well as maintain accurate and
Offering a wide-angle perspective, the 15mm f / 2.4 Blackstone Lens from Irix is a sophisticated premium lens designed. Benefiting the broad field of view is an advanced optical design that features aspherical, low-dispersion, and high-refractive index glass elements to control various aberrations and distortions, as well as maintain accurate and
Offering a wide-angle perspective, the 15mm f / 2.4 Blackstone Lens from Irix is a sophisticated premium lens designed. Benefiting the broad field of view is an advanced optical design that features aspherical, low-dispersion, and high-refractive index glass elements to control various aberrations and distortions, as well as maintain accurate and
Ultra-wide, versatile premium lens, Firefly 11mm f / 4 lens is combined with sophisticated optical design and lightweight, durable physical construction. Aspherical elements, extra-low dispersion and high refractive index are used to suppress chromatic fringes, chromatic and spherical aberrations, as well as instantaneous distortions. A treatment has been
Ultra-wide, versatile premium lens, Firefly 11mm f / 4 lens is combined with sophisticated optical design and lightweight, durable physical construction. Aspherical elements, extra-low dispersion and high refractive index are used to suppress chromatic fringes, chromatic and spherical aberrations, as well as instantaneous distortions. A treatment has been
Ultra-wide, versatile premium lens, Firefly 11mm f / 4 lens is combined with sophisticated optical design and lightweight, durable physical construction. Aspherical elements, extra-low dispersion and high refractive index are used to suppress chromatic fringes, chromatic and spherical aberrations, as well as instantaneous distortions. A treatment has been
Distinguished by its refined physical construction, the 11mm f / 4 Blackstone Lens from Irix is an ultra-wide premium designed for DSLRs. As a rectilinear lens, the advanced optical layout makes use of aspherical, extra-low dispersion, and high-refractive index elements to control distortion and aberrations for accurate, and sharp rendering with a high
Distinguished by its refined physical construction, the 11mm f / 4 Blackstone Lens from Irix is an ultra-wide premium designed for DSLRs. As a rectilinear lens, the advanced optical layout makes use of aspherical, extra-low dispersion, and high-refractive index elements to control distortion and aberrations for accurate, and sharp rendering with a high
Distinguished by its refined physical construction, the 11mm f / 4 Blackstone Lens from Irix is an ultra-wide premium designed for DSLRs. As a rectilinear lens, the advanced optical layout makes use of aspherical, extra-low dispersion, and high-refractive index elements to control distortion and aberrations for accurate, and sharp rendering with a high