Search Results - "Jagadeesan, K.C"

Electrochemical separation of 132/135La theranostic pair from proton irradiated Ba target by Chakravarty, Rubel, Patra, Sourav, Jagadeesan, K.C., Thakare, S.V., Chakraborty, Sudipta

“…•132/135La was produced via natBa (p, n) 132/135La reaction in an accelerator.•Electrochemical method was optimized for separation of 132/135La from irradiated…”
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40Ar/39Ar dating of tholeiitic flows and dykes of Elephanta Island, Panvel flexure zone, western Deccan Traps: A five-million-year record of magmatism preceding India-Laxmi Ridge-Seychelles breakup by Samant, Hrishikesh, Patel, Vanit, Pande, Kanchan, Sheth, Hetu, Jagadeesan, K.C.

“…Elephanta Island, located near Mumbai in the western Deccan Traps, is composed of subaerially erupted tholeiitic lava flows and dykes, with no evolved or…”
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Re-utilization of long lived 99Tc radio isotope via Photon induced nuclear reactions by Akbar, Shaima, Musthafa, M.M., Midhun, C.V., Joseph, Antony, Cyriac, Swapna Lilly, Jagadeesan, K.C.

“…Technetium-99 is a radioactive waste produced primarily in nuclear reactors. It is also left as radioactive waste in hospitals, directly from 99mTc isomeric…”
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A facile method for electrochemical separation of 181−186Re from proton irradiated natural tungsten oxide target by Chakravarty, Rubel, Chakraborty, Sudipta, Jadhav, Sachin, Jagadeesan, K.C., Thakare, S.V., Dash, Ashutosh

“…Routine availability of high specific activity 186Re would provide a significant boost to the development of potent theranostic radiopharmaceuticals. In the…”
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A simple and robust method for radiochemical separation of no-carrier-added 64Cu produced in a research reactor for radiopharmaceutical preparation by Chakravarty, Rubel, Rajeswari, Ardhi, Shetty, Priyalata, Jagadeesan, K.C., Ram, Ramu, Jadhav, Sachin, Sarma, Haladhar Dev, Dash, Ashutosh, Chakraborty, Sudipta

“…Copper-64 is an excellent theranostic radiometal that is gaining renewed attention of the clinical community in the recent times. In order to meet the…”
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Measurement of fission products yields in the quasi-mono-energetic neutron-induced fission of 232Th by Naik, H., Mukherji, Sadhana, Suryanarayana, S.V., Jagadeesan, K.C., Thakare, S.V., Sharma, S.C.

“…The cumulative yields of various fission products in the 232Th(n, f) reaction at average neutron energies of 5.42, 7.75, 9.35 and 12.53 MeV have been…”
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Reactor produced [64Cu]CuCl2 as a PET radiopharmaceutical for cancer imaging: from radiochemistry laboratory to nuclear medicine clinic by Chakravarty, Rubel, Shetty, Priyalata, Nair, K. V. Vimalnath, Rajeswari, Ardhi, Jagadeesan, K. C., Sarma, Haladhar Dev, Rangarajan, Venkatesh, Krishnatry, Rahul, Chakraborty, Sudipta

“…Objective Copper-64 is a useful theranostic radioisotope that is attracting renewed interest from the nuclear medicine community in the recent times. This…”
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Studies on the development of 169 Yb-brachytherapy seeds: New generation brachytherapy sources for the management of cancer by Saxena, Sanjay Kumar, Kumar, Yogendra, Jagadeesan, K.C., Nuwad, Jitendra, Bamankar, Y.R., Dash, Ashutosh

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Mass distribution in the quasi-mono-energetic neutron-induced fission of 238U by Naik, H., Mulik, V.K., Prajapati, P.M., Shivasankar, B.S., Suryanarayana, S.V., Jagadeesan, K.C., Thakare, S.V., Sharma, S.C., Goswami, A.

“…The yields of various fission products in the 3.72, 5.42, 7.75 and 10.09 MeV quasi-mono-energetic neutron-induced fission of 238U fission have been determined…”
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Studies on the development of 169Yb-brachytherapy seeds: New generation brachytherapy sources for the management of cancer by Saxena, Sanjay Kumar, Kumar, Yogendra, Jagadeesan, K.C., Nuwad, Jitendra, Bamankar, Y.R., Dash, Ashutosh

“…This paper describes development of 169Yb-seeds by encapsulating 0.6–0.65mm (ϕ) sized 169Yb2O3 microspheres in titanium capsules. Microspheres synthesized by a…”
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Study of radioactive impurities in neutron transmutation doped germanium by Mathimalar, S., Dokania, N., Singh, V., Nanal, V., Pillay, R.G., Shrivastava, A., Jagadeesan, K.C., Thakare, S.V.

“…A program to develop low temperature (mK) sensors with neutron transmutation doped Ge for rare event studies with a cryogenic bolometer has been initiated. For…”
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Production of gaseous radiotracers for industrial applications by Sharma, V.K., Pant, H.J., Goswami, Sunil, Jagadeesan, K.C., Anand, S., Chitra, S., Rana, Y.S., Sharma, Archana, Singh, Tej, Gujar, H.G., Dash, Ashutosh

“…This paper describes prerequisite tests, analysis and the procedure for irradiation of gaseous targets and production of gaseous radioisotopes i.e. argon-41…”
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Characterization of Neutron Transmutation Doped (NTD) Ge for low temperature sensor development by Mathimalar, S., Singh, V., Dokania, N., Nanal, V., Pillay, R.G., Pal, S., Ramakrishnan, S., Shrivastava, A., Maheshwari, Priya, Pujari, P.K., Ojha, S., Kanjilal, D., Jagadeesan, K.C., Thakare, S.V.

“…Development of NTD Ge sensors has been initiated for low temperature (mK) thermometry in The India-based TIN detector (TIN.TIN). NTD Ge sensors are prepared by…”
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Measurement of [sup.56]Fe [sup.56]Mn reaction cross-section at [E.sub.n] = 5.9, 9.85, 14.8 and 15.5 MeV by Mulik, V.K, Naik, H, Suryanarayana, S.V, Dhole, S.D, Prajapati, P.M, Shivashankar, B.S, Jagadeesan, K.C, Thakre, S.V, Bhoraskar, V.N, Goswami, A

“…The [sup.56]Fe(n, p)[sup.56]Mn reaction cross-section at neutron energies of 5.9 ± 0.6, 9.85 ± 0.38, 14.8 ± 0.1 and 15.5 ± 0.7 MeV from the [sup.7]Li(p, n) as…”
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An alternative route for the preparation of the medical isotope [sup.99]Mo from the [sup.238]U reactions by Naik, H, Suryanarayana, S.V, Jagadeesan, K.C, Thakare, S.V, Joshi, P.V, Nimje, V.T, Mittal, K.C, Goswami, A, Venugopal, V, Kailas, S

“…The radionuclide [sup.99]Mo, which has a half-life of 65.94 h was produced from [sup.238]U(γ, f) and [sup.100]Mo(γ, n) reactions using a 10 MeV electron linac…”
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Measurement of the neutron capture cross-section of [sup.238]U using the neutron activation technique by Naik, H, Surayanarayana, S.V, Mulik, V.K, Prajapati, P.M, Shivashankar, B.S, Jagadeesan, K.C, Thakare, S.V, Raj, D, Sharma, S.C, Bhagwat, P.V, Dhole, S.D, Ganesan, S, Bhoraskar, V.N, Goswami, A

“…The [sup.238]U(n, γ)[sup.239]U reaction cross-section at average neutron energy of 3.7 ± 0.3 MeV from the [sup.7]Li(p, n)[sup.7]Be reaction has been determined…”
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Studies on the production feasibility of [sup.64]Cu by reactions on Zn targets in Dhruva research reactor by Vimalnath, K.V, Rajeswari, A, Jagadeesan, K.C, Viju, C, Joshi, P.V, Venkatesh, Meera

“…[sup.64]Cu is an useful radionuclide for both PET imaging and targeted therapy, as it decays by three different modes, namely, electron capture (41%),…”
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Measurement of reaction cross-sections for [sup.64]Ni [sup.58]Co at [E.sub.n] = 3.7 MeV by Shivashankar, B.S, Naik, H, Suryanarayana, S.V, Prajapati, P.M, Mulik, V.K, Jagadeesan, K.C, Thakare, S.V, Goswami, A, Ganesan, S

“…The reaction cross-sections for [sup.64]Ni(n, [gamma]) [sup.65]Ni at [E.sub.n] = 0.025 eV and [sup.58]Ni (n, p) [sup.58]Co at [E.sub.n] = 3.7 MeV have been…”
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TL and OSL studies on neutron irradiated pure α-Al 2O 3 single crystals by Kulkarni, M.S., Rawat, N.S., Thakare, S.V., Jagadeesan, K.C., Mishra, D.R., Muthe, K.P., Bhatt, B.C., Gupta, S.K., Sharma, D.N.

“…α-Al 2O 3 single crystals were irradiated to various thermal neutron fluences in the range of 10 14 to 10 18 n/cm 2 with associated fast neutron fluence and…”
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TL and OSL studies on neutron irradiated pure α-Al2O3 single crystals by KULKARNI, M. S, RAWAT, N. S, THAKARE, S. V, JAGADEESAN, K. C, MISHRA, D. R, MUTHE, K. P, BHATT, B. C, GUPTA, S. K, SHARMA, D. N

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