These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..
These high-power precision pinholes are designed to withstand high power densities, up to 104 W/mm2 (106 W/cm2) for CW lasers. These are designed to be used with the beam incident on the gold-plated s..