Sigma has officially announced the 105mm F2.8 DG DN MACRO|Art for Sony E-mount & Panasonic/Leica/Sigma L-Mount cameras.
The new 105mm lens is the first Art line macro lens designed specifically for mirrorless cameras. It has a minimum focusing distance of 11.6″, and a 5.5″ working distance.
Sigma claims that it prioritizes optical performance above all else in its Art lens line-up. The 105mm F2.8 is said to have outstanding rendering performance from the center of the frame all the way to the edges, and it is claimed to be able to minimize ghosting and flare, even in backlit conditions.
The optical design of the lend consists of 17 elements in 12 groups, with 1 SLD element.
The lens has an aperture ring that gives users the option of controlling the aperture either via the camera or directly on the lens. The dial can be de-clicked using a switch on the lens barrel. There is also an aperture ring lock button.
The lens barrel features a Focus Limiter Switch that allows users to limit the lens’ focusing range, which is useful if you want faster AF performance. There are three settings: 0.295m-0.5m, 0.5m-infinity, or FULL.
Near the Focus Limiter Switch is an AFL button*, which allows users to assign a particular function via the camera menu.
*Limited to compatible cameras. Also, the functions depend on the camera.
The lens is also compatible with Sigma’s TC-1411 (1.4x) and TC-2011 (2.0x), teleconverters designed exclusively for use with L-Mount lenses.
Sigma claims that the lens is optimized for cameras that utilize the latest face/eye detection AF.
Key specifications (for L-mount)
- Lens construction: 12 groups, 17 elements (1 SLD lens)
- Angle of view: 23.3°｜Number of diaphragm blades: 9 (rounded diaphragm)
- Minimum aperture: F22｜Minimum focusing distance: 29.5cm / 11.6in
- Maximum magnification ratio: 1:1｜Filter size:φ62mm
- Maximum dimensions x length: φ74mm×133.6mm / φ2.9×5.3in
- Weight: 715g / 25.2oz.
Price & Availability
The lens retails for $799 USD. It will be available from the 23rd of October.
Matthew Allard ACS