Indian Space Program: News & Discussions

Five years of astronomical photography in visible, near-ultraviolet, and far-ultraviolet spectrum
Ultra-Violet Imaging Telescope is India’s first multi-wavelength astronomical observatory AstroSat in the sky
It has carried out 1166 observations of 800 unique celestial sources proposed by scientists both from India and abroad
The satellite that detected the first extreme-UV rays in the Universe from the cosmic noon celebrated its 5th birthday today, September 28, 2020.

The Ultra-Violet Imaging Telescope, or the UVIT, is a remarkable 3-in-1 imaging telescope simultaneously observing in the visible, the near-ultraviolet (NUV), and the far-ultraviolet (FUV) spectrum.

Weighing all of 230 kg, the UVIT comprises of two separate telescopes. One of them works in the visible (320-550 nm) and the NUV (200-300 nm). The second works only in the FUV (130-180 nm). It is one of the five payloads onboard India’s first multi-wavelength astronomical observatory AstroSat and completed five years of operation in the sky by imaging astronomical objects on 28 September 2020.

However, in the five years of its operation, the birthday baby has achieved quite a feat. It has carried out 1166 observations of 800 unique celestial sources proposed by scientists both from India and abroad.

It has explored stars, star clusters, mapping of the large and small satellite galaxies nearby to our own Milky Way galaxy called the Magellanic Clouds, an energetic phenomenon in the Universe such as the ultra-violet counterparts to gamma-ray bursts, supernovae, active galactic nuclei, and so on.

Its superior spatial resolution capability has enabled astronomers to probe star formation in galaxies as well as resolve the cores of star clusters (3 times better than the last NASA mission, GALEX). Observations from UVIT has recently led to the discovery of a galaxy located at a distance of about 10 billion light-years from Earth and emitting extreme ultraviolet radiation that can ionize the intergalactic medium.

AstroSat was launched by the Indian Space Research Organization (ISRO) on 28 September 2015 and has proved to be an important satellite capable of carrying out simultaneous observations over a range of wavelengths from the far ultraviolet to the hard X-ray band.

The UVIT project was led by the Indian Institute of Astrophysics (IIA), an autonomous institute of the Department of Science & Technology, Government of India, in collaboration with the Inter University Centre for Astronomy and Astrophysics, Pune, the Tata Institute of Fundamental Research, Mumbai, several centers of ISRO and the Canadian Space Agency. Several groups from ISRO have contributed to the design, fabrication, and testing of the payload.

“The Ultra-Violet Imaging Telescope, which is a marvelous piece of engineering, is a testimony to the power of several scientific agencies working together in multidisciplinary mode with a shared purpose,” said Prof Ashutosh Sharma, Secretary, DST.
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Images from UVIT in the near ultra-violet bands: Left: NGC 300, a spiral galaxy closest to our local group of galaxies. The bright spots in the arms of the galaxy are the intense star-forming regions. Here, green refers to a wavelength of 263.2 nm, and blue refers to a wavelength of 241.8 nm. Right: Zoomed image of NGC 1365, a spiral galaxy with a bar at the center that also hosts an active galactic nucleus powered by a 2 million solar mass black hole. Here green is at 279.2 nm, and blue is at 219.6 nm. (At ultra-violet wavelengths, celestial sources cannot be imaged from the ground).
pib.gov.in

Five years of astronomical photography in visible, near-ultraviolet, and far-ultraviolet spectrum

The satellite that detected the first extreme-UV rays in the Universe from the cosmic noon celebrate
pib.gov.in
 
PSLV C-49/EOS-01 launch is tentatively scheduled at 2:25 PM IST tomorrow from First Launch Pad (FLP) of SDSC (SHAR). This is ISRO's first launch this year. The First Launch Pad was set up in the late 80s & began operations in 1993. Thus it doesn't have the universal launcher stand & the modern assembly building that the other 2 launch pads have.

PSLV has so far made 50 launches, with 47 successfully reaching their planned orbits, 2 outright failures and 1 partial failure, yielding a success rate of 94% (96% including the partial failure). For a rocket designed in the 80s, this is some staggering levels of reliability.

The PSLV's architecture is very strange. Its a very modular 4 stage rocket :

The first stage called S139 is a solid rocket. It carries 139 tons of HTPB bound solid propellant. It is one of the largest solid rocket boosters in the world producing 4.8 MN of thrust. It is so big that the rocket is built in multiple pieces and assembled in the Vehicle Assembly Building(VAB).

Lower Section of the S139 :
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Another Section of the S139 :
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How does the flame carry over from one section to the other is beyond me. After the 1st stage the strap on boosters are integrated. The S12 boosters carry 12 tons of propellant & produce 703.5 KN each. The number of boosters vary based on mission requirement.
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Then comes the hypergolic liquid 2nd stage. Powered by a single Vikas engine carrying 42 tons of UDMH & Nitrogen tetroxide. The 2nd stage produced 803.7 KN of thrust.
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The 3rd stage is again a solid fueled. This stage produces 240KN thrust.
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The 4th stage is again a hypergolic. Carrying 2.5 tons of MMH/MON producing 14.66 KN of thrust. The propellant tank is a filament wound tank. The fiber is a Kevlar polyamide, the binding is done based on ISRO's patented interweaving mosaic pattern winding.
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The inside walls of the tank are coated with some unknown material. The coating prevents the Mono-Methyl Hydrazine(MMH) from ever coming in direct contact with the Kevlar fiber.

After the completion of rocket assembly the PSLV is moved out to the Launch Pad.
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Along with the Indian EOS-1 the rocket will carry R2 technology demonstration satellite from Lithuania, 4 KLEOS satellites (KSM-1A/B/C/D) from Luxembourg & 4 LEMUR satellites (LEMUR 1/2/3/4 ) from the USA.

 

Israel, Australia keen on space tie-ups with India​

BENGALURU: The Bengaluru Tech Summit (BTS), although online this year, is witnessing an increased interest in space sector collaborations. At least three of the global innovation alliance partner countries — Australia, Israel, and Sweden — have already expressed interest to collaborate on the space front, with the latter looking to participate in Shukrayaan-I, India’s mission to Venus.

Consul General of Israel in Bengaluru, Jonathan Zadka, told The New Indian Express that collaborations at the BTS this year will be besides their regular engagements. “We are looking at collaborations in innovations in non-space technnology that have space applications,” he said.

This includes Aleph Farms, a food tech startup and a global leader in the cultivated meat industry that has already cultivated steaks in 2019 for the International Space Station, using minimal resources.Zadka said the Israel space agency had tasted success when they applied Aleph Farm’s artificial food for space use. “It is sustainable for long space missions,” he added.

‘Venus mission to carry Swedish satellite instrument’
Likewise, two other Israeli companies, Pluristem Therapeutics (that uses placental cells and three-dimensional technology platform to develop cell therapies for conditions such as inflammation, ischemia, exposure to radiation, etc) and an Israeli-American start-up company that develops and manufactures personal protective equipment against ionising radiation, will be participating in this year’s summit.

Avi Blasberger, Director General, Israel Space Agency, will also be present this year for the virtual summit. Israel will hold a session on ‘Pivoting to Space: New Opportunities For Industry and Government of Israel’, on November 19.Also, Dr Fanny von Heland, Counsellor, Innovation and Science, Embassy of Sweden in India, said they are organising a panel discussion on ‘Sweden-India Space Technology Collaboration’ for a sustainable future — for supporting ongoing and future dialogues and partnerships between India and Sweden.

Highlighting one of the important collaborations, Heland said, “The first Indian lunar mission, Chandrayaan-1, carried a Swedish instrument which contributed to understanding the lunar environment.”About India’s upcoming Venus mission Shukrayaan-I, Heland said it will carry a Swedish satellite instrument which will study how charged particles of the Sun interact with the atmospherics and exospherics of the planet. Heland exuded confidence in Sweden playing a part in making the Venus mission a success.

Barry O’Farrell, Australia’s High Commissioner to India, said the two countries are forging new bonds — from cyberspace to outer space. Australia will hold a session on November 20 on ‘From Cyberspace to Outer Space: Innovating with Australia in a post-COVID world Australia’.

“Our high-level panel
will provide an overview of Australia’s innovation ecosystem, cyber and critical technology capabilities, and growing space ambitions,” O’Farrell added. Peter Beck, Chief Executive of US-based aerospace manufacturer and smallsat launch service provider Rocket Lab, is also to address the summit.

Other key voices
Sonam Wangchuk, Indian engineer; S Gopalakrishnan (Kris), Co-founder Infosys & Chairman Axilor Ventures; Prof S Sadagopan, Dairector, IIITB; Dr Shekhar C Mande, Secretary, DSIR and Director-General Council of Scientific & Industrial Research; Latha Reddy, Co-Chairman, Global Commission on Stability in Cyberspace; Anand Mahindra, Chairman, Mahindra Group; and Sadhguru Yogi, Founder, Isha Foundation.
www.newindianexpress.com

Israel, Australia keen on space tie-ups with India

BENGALURU: The Bengaluru Tech Summit (BTS), although online this year, is witnessing an increased interest in space sector collaborations. At least three of the
www.newindianexpress.com www.newindianexpress.com
 

Ananth Technologies signs JV to build, launch satellites from India

BENGALURU: Aerospace firm Ananth Technologies will set up a joint venture with US satellite operator Saturn Satellites to build two communication satellites initially and launch them using the Indian space agency’s workhorse PSLV rocket.

Ananth is the first Indian company to tap the global market after India opened up its space sector, allowing private firms to build satellites and rockets and offer space services from the country.

The Hyderabad-based company will build the 300-700 kg satellites at its newly opened facility in Bengaluru and launch them using the Indian Space Research Organisation’s tried and tested Polar Satellite Launch Vehicle.

The launch will be managed by New Space India Ltd, an entity created to engage with the industry to build and launch satellites on Indian soil. The joint venture will be named SaAn Satellite Networks India.

“There are very few companies who make communication satellites in this (300-700 kg) class. Rest of the world is concentrating on smaller satellites. PSLV is uniquely placed to be most economical and proven to launch them,” Subba Rao Pavuluri, chairman and managing director of Ananth Technologies, told ET.

Ananth will build the NationSat communication satellite for both the global market as well as tap the Indian market, which allows private firms to operate satellites. Indian companies can build satellites at 30% lower costs than in the West, besides renting the existing space infrastructure built by Isro to offer end-to-end integrated satellite building capabilities to launch services at competitive rates, he said.

Ananth has been a supplier of satellite systems and sub-systems for India’s space agency and has integrated the solar panels for these satellites. Its new facility is designed to fully integrate satellites for both local and overseas customers. The country’s decades-long expertise in building satellites has helped create a critical talent base, which gives it an opportunity to tap outsourcing opportunities to make them in India.

The PSLV has emerged as the preferred rocket to hurl small and medium satellites into space. The rocket will deliver its 50th mission later in December. Antrix Corp, the commercial arm of Isro, had contracted in the past with EADS Astrium to build a communication satellite for British media firm Avanti Screenmedia Group Plc.

Other upcoming full-fledged satellite production initiatives include the proposed production facility to be built jointly Berlin Space Technologies and Ahmedabad-based Azista Aerospace.
 

IN-SPACe to provide a level playing field for PVT companies, start-ups in the space sector: Jitendra Singh​

Union Minister Jitendra Singh on Monday said the newly created Indian National Space Promotion and Authorisation Centre (IN-SPACe) will provide a level playing field for private companies as well as start-ups in the space sector. The Union Cabinet had last year approved the participation of the private sector in the entire range of space activities, including planetary exploration missions.
Singh, the minister of state for the Department of Space, said more than 25 industries have already approached the Department of Space for undertaking space activities according to the guidelines.
The Indian Space Research Organisation (ISRO) in collaboration with the private sector will boost the goal of 'Aatmanirbhar Bharat' (self-reliant India), he said.
"The decision to create Indian National Space Promotion and Authorisation Centre (IN-SPACe) will provide a level playing field for private companies as well as start-ups. The proposed range of space activities includes the small satellite launch vehicle, geospatial services, satellite constellation, application products," a statement quoting Singh said.
Impression of Planet Proxima Centauri with New the stars, Centauri a and Centauri B - Information about Proxima Centauri .
 
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