observing room Solar telescopes need optics large enough to achieve the best possible
diffraction limit but less so for the associated light-collecting power of other astronomical telescopes. However, recently newer narrower
filters and higher framerates have also driven solar telescopes towards photon-starved operations. Both the
Daniel K. Inouye Solar Telescope as well as the proposed
European Solar Telescope (EST) have larger apertures not only to increase the resolution, but also to increase the light-collecting power. Because solar telescopes operate during the day,
seeing is generally worse than for night-time telescopes, because the ground around the telescope is heated, which causes
turbulence and degrades the resolution. To alleviate this, solar telescopes are usually built on
towers and the structures are painted white. The
Dutch Open Telescope is built on an open framework to allow the wind to pass through the complete structure and provide cooling around the telescope's main mirror. Another solar telescope-specific problem is the heat generated by the tightly-focused sunlight. For this reason, a
heat stop is an integral part of the design of solar telescopes. For the
Daniel K. Inouye Solar Telescope, the heat load is 2.5 MW/m2, with peak powers of 11.4 kW. The goal of such a heat stop is not only to survive this heat load, but also to remain cool enough not to induce any additional turbulence inside the telescope's dome. Professional solar observatories may have main optical elements with very long
focal lengths (although not always,
Dutch Open Telescope) and light paths operating in a
vacuum or
helium to eliminate air motion due to
convection inside the telescope. However, this is not possible for apertures over 1 meter, at which the pressure difference at the entrance window of the vacuum tube becomes too large. Therefore, the
Daniel K. Inouye Solar Telescope and the
EST have active cooling of the dome to minimize the temperature difference between the air inside and outside the telescope. Due to the Sun's narrow path across the sky, some solar telescopes are fixed in position (and are sometimes buried underground), with the only moving part being a
heliostat to track the Sun. One example of this is the
McMath-Pierce Solar Telescope. The Sun, being the closest star to earth, allows a unique chance to study
stellar physics with high-resolution. It was, until the 1990s, the only star whose surface had been resolved. General topics that interest a solar astronomer are its 11-year periodicity (i.e., the
Solar Cycle),
sunspots,
magnetic field activity (see
solar dynamo),
solar flares,
coronal mass ejections,
differential rotation, and
plasma physics. ==Other types of observation==