Politicians are doing a great disservice to scientific advance in
India by whipping up unfounded fears about the neutrino project
A national project to study fundamental particles called
neutrinos has suddenly been drawn into an unwarranted controversy by V.
S. Achuthanandan, the former CPI (M) Chief Minister of Kerala and
leader of the Opposition in the Kerala Assembly, in association with an
environmental activist, V.T. Padmanabhan.
The project
involves the construction of an underground laboratory, called the
India-based Neutrino Observatory (INO), to be located in a cavern under a
rocky mountain in the Bodi West Hills region of the Theni district,
about 110 km west of Madurai in Tamil Nadu.
What are
neutrinos? After photons, they are the most abundant particles in the
universe. Among the known fundamental particles, they are also perhaps
the strangest. They interact very feebly with other particles.
Therefore, all forms of matter, including the earth, are nearly
transparent to them. About 100 trillion neutrinos from the sun and other
cosmic sources pass through our bodies every second without causing any
harm.
Rare interaction
As they interact
very rarely, they are not easily detected and, therefore, not well
studied. The large background flux of other particles in the cosmic rays
presents an additional complication in their detection. Neutrino
detectors are, therefore, usually placed deep underground, typically a
kilometre or deeper. The large overburden of rock or earth above the
detectors reduces the background particles by a million times or more.
While almost all neutrinos pass through freely, a few interact in the
detectors and can be detected. Many neutrino detection experiments are
on in different parts of the world and, with growing interest in
neutrino physics, many others are being proposed and built. The INO is
one such that has evinced worldwide interest.
It is
now known that neutrinos come in three types (electron-neutrino,
muon-neutrino and tau-neutrino). Once thought to be massless, they are
now known to have very tiny masses. But their individual masses remain
unknown. Of the three neutrino flavours, the heaviest has at least one
10 millionth the electron’s mass. Which flavour is the heaviest? The
ordering of neutrino masses too is unknown. This is called the ‘mass
hierarchy’ question, which the INO is well suited to investigate.
The
strange particles also have the ability to morph from one type to
another as they pass through space, people, matter and the Earth itself,
rarely interacting with anything in their path. This is called neutrino
oscillation. While the details of two oscillations are known fairly
well, the third — the switching of tau-neutrino to electron-neutrino —
is not well characterised and forms one of the main objectives of the
INO.
The idea for a neutrino observatory in India was
first mooted in 2000 at an international conference in Chennai. The
proposal was further refined and consolidated at the 2001 Neutrino
meeting in Chennai, when the INO consortium of collaborating Indian
institutions was formed. In 2002, a formal proposal was submitted to the
Department of Atomic Energy, which has since been the nodal agency for
the project.
The project has now been identified as
one of the mega science projects in the XII Plan with an investment of
Rs. 1,350 crore by the DAE and the Department of Science and Technology
(DST). At present, 26 Indian institutions — which include Calicut
University — and about 100 scientists are involved, with the Tata
Institute of Fundamental Research, Mumbai, as the nodal institute.
It
is therefore bizarre that Mr. Achuthanandan and Mr. Padmanabhan should
allege that the INO is a project of Fermilab, USA, initiated along with
the controversial Indo-U.S. nuclear deal. It is a totally indigenous
project, conceived jointly by scientists from many Indian research
institutions and initiated long before negotiations for the Indo-U.S.
nuclear deal began in 2005. Nor was Fermilab, USA, anywhere in the
picture then. The project is a basic science experiment that has nothing
to do with radioactivity or any other hazardous nuclear activity. Nor
does it have any defence or strategic implications.
A
site within the complex of the hydroelectric project PUSHEP of the
Tamil Nadu Electricity Board at Singara, near Mudumalai Sanctuary in the
Nilgiri Hills, was identified in 2002 as the best option for the
project from the geological, environmental and infrastructure points of
view. The TNEB prepared the detailed project report in 2007. But, after
prolonged delays, the Tamil Nadu Forest Department rejected the proposal
in 2010, despite the project being located entirely on the TNEB land.
The
reason — the site fell in the buffer zone of the Mudumalai Tiger
Reserve and the elephant corridor connecting the Eastern and the Western
Ghats. Interestingly, the notification declaring the area as a tiger
reserve was issued only in 2008, six years after the INO project was
proposed and two years after the DAE applied to the Tamil Nadu Forest
Department for approval. More pertinently, a report by Dr. R. Sukumar,
an expert on the Nilgiris Biosphere Reserve from the Indian Institute of
Science, Bangalore, had clearly stated that the project would not be
detrimental to the wildlife and environment of the region. It may be
pointed out that, at the same time, there is no serious effort to stop
the ever-increasing tourist and vehicular traffic and mushrooming
resorts in the region.
The location in Bodi West
Hills was chosen as the next best site. The main INO laboratory will be
located in a cavern 1.3 km below a mountain peak. There, an entirely
indigenously built magnetised iron calorimeter detector, weighing about
50 kilotons, will be used to detect both natural and man-made neutrinos.
The cavern will be linked to the outside world by a 1.9 km long main
tunnel.
In Phase I, however, INO will study only
neutrinos produced by cosmic rays in the Earth’s atmosphere. In Phase
II, it could be used as a far detector for using beams from future
accelerator-based ‘neutrino factories’ in Japan, Europe and the U.S. The
INO is expected to become operational in 2017 when the first module of
the detector will start taking data.
Contrary to Mr.
Achuthanandan and Mr. Padmanabhan’s accusations of secrecy and lack of
transparency, all the details about the project are available on its
website www.ino.tifr.res.in. Among other issues they have raised is
that, because of the project site’s proximity to the Tamil Nadu-Kerala
border, permission from the Kerala government should have been sought.
In their view, during the rock-blasting for construction, the project
could seismically impact the Mullaperiyar dam that is about 100 km away.
It is also alleged that neutrino beams from Fermilab would adversely
affect the biodiversity of the region.
According to
M.V.N. Murthy of the Institute of Mathematical Sciences, Chennai —
another key institution involved in the project — a proper geotechnical
analysis has indeed been done. The measures adopted to minimise the
project’s environmental impact have been detailed in the Environmental
Impact Assessment report and also briefly described in the FAQ, both of
which are available on the INO website. This includes controlled
blasting that will be adopted in the initial reaches to dampen noise and
vibration. Even this is expected to last only for the initial few
months when the first few hundred metres of the tunnel are built.
Minimal vibrations
Blasting
for the excavation of the cavern and associated laboratory
infrastructure is expected to cause only minimal vibrations. The INO,
says the FAQ, will undertake ground vibration monitoring and other rock
mechanics studies during the actual blasting. Appropriate blasting
pattern and modern blasting techniques based on the actual site geology
will be followed so that the vibration is minimised. But, more
pertinently, there are hundreds of granite quarries in the Theni-Idukki
region where constant rock blasting goes on throughout the year, which
are not known to have had any impact on the dam.
As
regards the INO possibly receiving neutrinos beamed from Fermilab, which
may happen 10-15 years hence, that has to do with physics and not some
ulterior U.S. strategic motive as is being imagined. Also, since
neutrinos rarely interact with matter, just as the atmospheric
neutrinos, these neutrinos too will pass through without disturbing
anything along their path, in particular the biodiversity as is being
apprehended.
As it is, the inability to proceed with
the project at the original Nilgiris site has set back the project by at
least six-seven years. Consequently, China has upstaged INO in one of
its main science goals. Only in 2004 — two years after the INO proposal —
did China propose an experiment to use neutrinos from a nuclear reactor
at Daya Bay and a detector located in an underground tunnel under a
nearby hill. That experiment started taking data last year and, in March
2012, measured a key unknown parameter relating to oscillation between
tau-neutrino and electron-neutrino. This was subsequently verified in
April by a similar Korean experiment, RENO, initiated in 2006. It also
began operation last year.
The already much-delayed and important physics project can do without another needless controversy at this point of time.
VS alleges secret moves for neutrino experiment
Leader of the Opposition V.S. Achuthanandan has alleged that India and
the United States are making secret moves to conduct neutrino
experiments deep inside the mountainous terrain of Idukki and Theni
districts on the Kerala-Tamil Nadu border.
Mr. Achuthanandan told a news conference in Thiruvananthapuram on Monday
that the experiment was sought to be conducted in an underground
laboratory being set up in close proximity to the Mullaperiyar Dam in
Idukki district without taking the consent of the local population or
the State government.
The moves for setting up the lab deep in the ground with walls and roof
of at least 1,000-metre thickness were a follow-up on the India-U.S.
agreements signed by the first Manmohan Singh government. Although the
Tamil Nadu government’s clearance had been sought for the project, no
such effort had been made in Kerala’s case, he alleged.
Mr. Achuthanandan, who was accompanied by anti-nuclear activist V.T.
Padmanabhan, said his information was that the construction of the
tunnel would begin soon. He asked the Central government to clarify its
stand on the neutrino experiment.
INO: Madurai to be nodal centre
Construction of Rs. 1,300-crore underground observatory in Theni district will start next year
An action plan is ready to establish a major research laboratory in
Madurai for detector development meant for the ambitious Rs.1,300-crore
India-based Neutrino Observatory(INO) project coming up in Theni
district.
The Research and Development lab in Madurai will be a national facility
that would be the nodal centre for the underground INO project.
“For all the neutrino experiments and research activities, the Madurai
laboratory would be the nerve centre. All activities for INO project
which is being set up along Bodi West Hills in Theni district will be
coordinated through the Madurai nodal centre,” M. V. N. Murthy, a senior
faculty at the Institute of Mathematical Sciences, Chennai, has said.
Talking to The Hindu here on Wednesday, he said that since all
statutory clearances have been obtained for the INO project, the
construction works at the site will begin sometime next year.
Pre-project works on
“Pre-project works are going on and lot of scientific/simulation
meetings are taking place among the collaborators. The INO will turn out
to be the largest basic science project in India and it would be a
giant leap for us in the field of physics,” Prof. Murthy said.
Construction works and installation of a huge detector/magnet will be
completed in five years.
The major funding agencies for the Rs.1,300-crore INO project are the
Department of Atomic Energy and Department of Science and Technology of
Government of India.
While the Mumbai-based Tata Institute of Fundamental Research is the
host institution for this project, totally there are 26 leading research
institutions involved in this major project. The Institute of
Mathematical Sciences at Chennai too is one among the collaborators
offering its theoretical expertise in the field.
Madurai centre
The nodal centre of the INO at Madurai would come up near Madurai
Kamaraj University at Vadapalanji and it will be shaped up as a major
centre for high energy physics to play a nodal role with collaborators,
scientists and detector development.
Prof. Murthy said that 13.5 hectares of land was sought for setting up
the Centre for High Energy Physics here and “we are in the process of
completing the formalities to take possession of the land from the
district administration.”
He was here to attend a lecture workshop on the latest discovery of God
particle-Higgs boson-organised jointly by various science academies at
American College.
“This discovery is a big push for us to focus on neutrinos and dark matter.
There is still so much to understand about our universe and INO is set
to take Madurai into the national frontiers,” he expressed confidence.
India-based Neutrino Observatory (INO)
The India-based Neutrino Observatory (INO) Project is a
multi-institutional effort aimed at building a world-class underground
laboratory with a rock cover of approx.1200 m for non-accelerator based
high energy and nuclear physics research in India.
The project includes
(a) construction of an underground laboratory and associated surface facilities at Pottipuram in Bodi West hills of Theni District of Tamil Nadu,
(b) construction of a Iron Calorimeter (ICAL) detector for studding neutrinos, consisting of 50000 tons of magnetized iron plates arranged in stacks with gaps in between where Resistive Plate Chambers (RPCs) would be inserted as active detectors, the total number of 2m X 2m RPCs being around 29000, and
(c) setting up of National Centre for High Energy Physics at Madurai, for the operation and maintenance of the underground laboratory, human resource development and detector R&D along with its applications. The underground laboratory, consisting of a large cavern of size 132m X 26m X 20m and several smaller caverns, will be accessed by a 2100 m long and 7.5 m wide tunnel.
(a) construction of an underground laboratory and associated surface facilities at Pottipuram in Bodi West hills of Theni District of Tamil Nadu,
(b) construction of a Iron Calorimeter (ICAL) detector for studding neutrinos, consisting of 50000 tons of magnetized iron plates arranged in stacks with gaps in between where Resistive Plate Chambers (RPCs) would be inserted as active detectors, the total number of 2m X 2m RPCs being around 29000, and
(c) setting up of National Centre for High Energy Physics at Madurai, for the operation and maintenance of the underground laboratory, human resource development and detector R&D along with its applications. The underground laboratory, consisting of a large cavern of size 132m X 26m X 20m and several smaller caverns, will be accessed by a 2100 m long and 7.5 m wide tunnel.
The initial goal of INO is to study neutrinos. Neutrinos are
fundamental particles belonging to the lepton family. They come in three
flavours, one associated with electrons and the others with their
heavier cousins the muon and the Tau. According to standard model of
particle physics, they are mass less. However recent experiments
indicate that these charge-neutral fundamental particles, have finite
but small mass which is unknown. They oscillate between flavours as they
propagate. Determination of neutrino masses and mixing parameters is
one of the most important open problems in physics today. The ICAL
detector is designed to address some of these key open problems in a
unique way. Over the years this underground facility is expected to
develop into a full-fledged underground science laboratory for other
studies in physics, biology, geology, hydrology etc.
Development of detector technology and its varied applications is an important aspect of the project.
The detector R&D, electronics and control, magnet design
as well as physics studies and numerical simulations related to ICAL
detector is being done in-house at various participating institutions.
On a smaller scale the development of human resource has already started
in the form of the INO Graduate Training Programme (GTP) under the
umbrella of Homi Bhabha National Institute (HBNI), a deemed-to-be
University within DAE. A conscious and consistent effort at developing
local components and solutions for all the engineering aspects has been
undertaken. A key feature of this project is the INO-Industry interface
that has developed because of the large scale of activity involved.
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