Largest Solar Telescope
in the World
The sun’s atmosphere is an
ideal place to study and test many magneto-hydro-dynamic (MHD) processes
controlling turbulent plasma. Some of the finest solar features can be resolved
with state-of-the-art telescope. Ladakh,
the cold desert in the country, will have the world’s largest state-of-the-art
solar telescope on the earth soon for this purpose. This National Largest Solar
Telescope (NLST) will be set up at high altitude Pongong Tso Lake Merak near
Line of Actual Control on the Sino-Indian divide. It will be unique globally
because the largest solar telescope, the Mc-Math-Pierce Solar Telescope, in the
world at present is 1.6 meters. It is situated in Kitt
Peak national Observatory at Arizona in the United States . The NLST will have
the reputation of being the world’s largest telescope till 2020. It is expected
that a larger telescope may become operational in the US by
2020-2021.
NLST
is a Gregorian multi-purpose open telescope. It will be on-axis with the
provision of carrying out night time stellar observations using a spectrograph.
It will be able to study particles spread across 50 kilometers of the sun. It
is expected to resolve features on the sun of the size of about 0.1 arcsec. The focal plane
instruments are to include a high resolution polarimetric package to measure
polarization with an accuracy of 0.01 %, a high spectral resolution
spectrograph to obtain spectra in 5 widely separated absorption lines
simultaneously and high spatial resolution narrow band image in various lines.
Modalities
The telescope
will be fitted with a 2 meter reflector which will enable scientists to carry
out cutting edge research to understand the fundamental processes taking place
on the earth. The design is by an international company which also designed the
1.5 meter telescope located at Tenarife
Island in Spain . All the telescope’s
instruments will be developed by the Indian Institute of Astrophysics (IIA) and
will be remotely operated through the master control facility at Bangalore . The link will
be through a satellite which will be provided by the Indian Satellite Research
Organisation (ISRO). Night-time observations will be made using an instrument
which will be built in collaboration with the University of Hamburg, Germany.
Scientific Objectives
Scientists will
study the sun’s microscopic structure, and long term changes in the earth’s
climate and environment. This will provide useful data to carry out research in
order to minimize or remove disruptions to communication network and satellite
due to periodic solar-winds.
The telescope
will address the fundamental question about the nature of solar magnetism. It
will aim to resolve flux tubes and measure their strength; address the
development of magnetic fields on the sun which are responsible for almost all
the observation phenomena on the sun. They include solar dynamo, solar cycle
and solar variability that determine and control space weather.
Other scientific
observations are: –
Magnetohydrodynamics(MHD)
waves by resolving small structures and determining periods of oscillations
which may be responsible to transport the energy to upper atmosphere of the
sun:
1.
Dynamic
evolution of small scale structures by making high cadence observations;
2.
Evolution of
active regions and their role in triggering solar flare, prominences filament
eruptions, CMEs, etc;
3.
Thermodynamics
of the chromospheres by making the observations in the infrared wavelengths;
and
4.
Weak and
turbulent magnetic field measurements using Hanle effect which are as important
as strong magnetic fields.
All these data
will be gathered by making observations with high spatial resolution using
adaptive optics, high spectral resolution, high temporal resolutions,
multi-wave length capability of imaging and spectroscopy focal plane
instruments, high photon flux and sensitivity of the detectors and using the
infrared part of the spectrum for observations.
The telescope
will utilize an innovative design with a low number of reflections to obtain a
high throughput and low instrumental polarization. High order adaptive optics
is integrated into the design that works with a modest Fried’s parameter of 7
cm to give diffraction limited performance. The telescope will be equipped with
a suit of post focus instruments including a high resolution spectrograph and a
polarimeter.
Selection of
the Site
To
install the telescope, the Indian Institute of Astrophysics studied two other
sites-Hanle, Leh and Devasthal near Nainital in Uttarakhand but eventually
opted for Merak in Ladakh.The cloudless skies and low atmospheric water vapour
have made it one of the best sites in the world for optical, submilimeter and
millimeter wavelengths.
The
site has been selected after carefully studying various scientific and
environmental aspects. The site characterization has been done using the sun
photometer, S-DIMM and SHABAR techniques to determine the seeing condition.
SHABAR or Shadow Band Radiometer is a simple yet elegant way to probe the
turbulence profile of the lower atmosphere. It observes scintillation of an
extended object such as the sun or the Moon with an array of photo detectors.
S-DIMM is Solar Differential Image Motion Monitor.
The Himalayan
regions provide certain atmospheric conditions required for such telescope
functioning. It provides a large number of clear hours for making observations
with very good visibility. The water vapour in the field is also low which
helps making observations in infrared wavelength for high accuracy of magnetic
field and velocity measurements. The lake side provides better seeing
condition. Because of lake water, there is extremely low water vapor content
and this is unaffected by the monsoon.
The
NLST project is a major multi-party initiative involving IIA, ISRO, Aryabhatta
Research Institute of Observational Sciences, Tata Institute of Fundamental
Research (TIFR) and Inter
University Center
for Astronomy and Astrophysics (IUCAA). The project will involve an investment
of over Rs 250 crore, most of which will go in procuring equipment.
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