Just lurked for 2 hours after researching scopes to replace a few of my junkers. Looking at MK5, Vortex III, Nightforce, Trijicon etc..
As we know, you ask 10 professionals about which chainsaw, which drug reduces cholesterol or who makes the best rifle scope and you'll get 15 answers. I found repeated arguments over which scope is holding zero (not to mention all the other specs we want) and lots of extreme opinions looking for general ideas.
I'm surprised that ANY of these scopes might be expected to hold a "perfect" zero over months, weeks or even days as there is so much more involved in making that happen (rifle, ammo, weather, mount, scope etc.). At least what a long range shooter might consider zero.
I'll narrow my thought to just a scope's mechanical assembly. I've built 24 bit absolute optical encoders for space telescopes and single digit micro-radian per degree C pointing stability laser systems. To even test these systems over a specified temp range requires severe stability from low CTE materials like invar coupled to high resolution sensors. Everything is jelly when you're looking sub milliradian and that is exactly what long range shooters are doing.
Have none of the trade groups gathered a selection of these scopes and sent them to a test house to get shock/vibe/temp flogged for stability as it is not hard to do. Surely there has been military testing because there are mil specs for optics.
So barring some miracle scope, they will ALL lose their zero at some microradian level that nobody is sharing. Until they do we're left with durability, optical quality, ergonomics, functionality and maybe warranty?
As we know, you ask 10 professionals about which chainsaw, which drug reduces cholesterol or who makes the best rifle scope and you'll get 15 answers. I found repeated arguments over which scope is holding zero (not to mention all the other specs we want) and lots of extreme opinions looking for general ideas.
I'm surprised that ANY of these scopes might be expected to hold a "perfect" zero over months, weeks or even days as there is so much more involved in making that happen (rifle, ammo, weather, mount, scope etc.). At least what a long range shooter might consider zero.
I'll narrow my thought to just a scope's mechanical assembly. I've built 24 bit absolute optical encoders for space telescopes and single digit micro-radian per degree C pointing stability laser systems. To even test these systems over a specified temp range requires severe stability from low CTE materials like invar coupled to high resolution sensors. Everything is jelly when you're looking sub milliradian and that is exactly what long range shooters are doing.
Have none of the trade groups gathered a selection of these scopes and sent them to a test house to get shock/vibe/temp flogged for stability as it is not hard to do. Surely there has been military testing because there are mil specs for optics.
So barring some miracle scope, they will ALL lose their zero at some microradian level that nobody is sharing. Until they do we're left with durability, optical quality, ergonomics, functionality and maybe warranty?
