Vacancy for Research Associate position in IACS Kolkata : Applications are being accepted for a post as a RA-I/Bridge fellow (Institute), overseen by Prof. Siddhartha S. Jana at the Indian Association for the Cultivation of Science’s School of Biological Sciences.
Research Associate-I/Bridge fellow
One (01)
Biochemistry
Cell biology /cell migration
1. The candidate must have earned a minimum of 55% in their B.Sc. and M.Sc. degrees in chemistry or biochemistry with a first or high second class ranking. A Ph.D. degree or a submitted thesis is required of the candidate (documentary proof should be presented). The candidate should have a strong track record of research accomplishments backed by publications in peer-reviewed journals. The ideal candidate will possess both the customary proficiency in microscopy techniques and a track record of established research experience in the aforementioned fields. The applicant ought to be qualified to guide younger students.
2. A chosen candidate who has not yet earned a Ph.D. will be eligible to receive the full RA-I fellowship from the date of the doctorate’s issuance, backed by documented evidence, and will receive a fellowship amount equivalent to a bridge fellowship in accordance with IACS regulations. Fellowship: As per IACS regulations.
One year, subject to the progress monitoring committee’s assessment at the end of six months. The candidate shall not be entitled to any position inside the institute, either officially or tacitly. On or before December 16, 2023, interested applicants should send their full resume, including phone number and email address, to Prof. Siddhartha S. Jana at [email protected]. A copy should also be sent to [email protected]. After this date, applications won’t be considered.
The candidate’s full name and the words “Application for RA-I/Bridge fellow position followed by the advertisement number” should appear in the email’s subject line. The academic qualifications and research experience substantiated by publications in peer-reviewed journals will be used to shortlist the applicants. The email notification of the interview date and time for the shortlisted candidates to attend the online interview will be sent.
Best Research Institute in west bengal for PhD in Physics : In West Bengal, are you seeking a PhD in physics? In that case, you’re in luck! Some of the top research institutes in the nation, providing good prospects for physics PhDs, are located in West Bengal. You are sure to find a field that aligns with your interests and goals, regardless of your background in astrophysics, cosmology, quantum information, biology, condensed matter physics, or materials science. I’ll outline some of the best research institutes in West Bengal for physics PhD candidates in this blog article, along with a quick synopsis of their facilities and research focus. :
One of the seven IISERs created by the Indian Ministry of teaching to advance excellent fundamental science teaching and research is the Indian Institute of Science Education & Research Kolkata (IISER-K). It was established in 2006 and has been included by several rankings as one among India’s best academic institutes. In the fields of physics, chemistry, biology, mathematics, statistics, earth sciences, computational and data sciences, humanities, and social sciences, the institute provides Ph.D. programmes. A national level entrance exam (JEST/GATE/NET) or an internal entrance exam followed by an interview determines admission. The institute features multiple interdisciplinary centres and initiatives in addition to first-rate research facilities and infrastructure.
Founded as the nation’s first IIT in 1951, this is among the oldest and most prestigious engineering schools in India. The institute offers undergraduate, graduate, and doctorate programmes in engineering, science, business, law, medical science, and the humanities through its 19 academic departments. Via its Department of Physics, which conducts research in a number of fields including high energy physics, cosmology, quantum field theory, quantum optics, nonlinear dynamics, soft matter physics, etc., the institute provides PhD programmes in physics.
Founded in 1960 as one of India’s eight Regional Engineering Colleges, this is a public engineering institution. The institute offers undergraduate, graduate, and doctorate programmes in engineering, science, management, and the humanities through its 17 academic departments.Through its Department of Physics, which conducts research in a number of fields including superconductivity, nanomaterials, biophysics, and magnetism, the institute provides PhD programmes in physics.
Bengal Engineering College was the previous name of this esteemed public engineering institution. In 2014, the Indian government designated the institute as an Institute of National Importance. The institute offers undergraduate, graduate, and doctorate programmes in engineering, science, architecture, management, and the humanities through its sixteen academic departments. Through its Department of Physics, which conducts research in a number of fields including materials science, nanotechnology, condensed matter physics, optics and photonics, etc., the institute provides PhD programmes in physics.
This independent research organisation does basic science research. The institute was established in 1986 as a Registered Society under the auspices of the Department of Science and Technology, Government of India. The Centre was founded in memory of Professor S. N. Bose, a titan of theoretical physics who contributed some of the most important conceptual advances to the fields of quantum statistics and mechanics. The Centre has grown to become a significant hub for fundamental science research and development. PhD programmes in condensed matter and materials physics, physics of complex systems, astrophysics and high energy physics, and chemical and biological sciences are all available at SNBNCBS.
This esteemed research institution is committed to conducting investigations in a range of demanding fields within the fields of astronomy, astrophysics, and space science. Despite being a government-aided institution, much of the funding for research is provided by grants from national and international funding organisations. At Cooch Behar, ICSP operates a cutting-edge observatory with a number of instruments for studying the Sun, Moon, and other celestial bodies. Additionally, ICSP is home to a high-performance computer centre that makes it possible to simulate intricate physical processes numerically. PhD programmes in planetary science, solar physics, astrophysics, and space weather are available at ICSP.
The renowned scientist Sir Jagadish Chandra Bose established this institute in 1917, making it one of the most esteemed and ancient in all of India. Particularly in the areas of molecular biology, bioinformatics, cosmology, astrophysics, and biophysics, the institute has a long history of scientific advancements. The institute provides Ph.D. programmes in transdisciplinary sciences, biological sciences, chemical sciences, and physical sciences. Both an interview and a written exam determine admittance. The institute offers a vibrant atmosphere for research and collaborates with numerous national and international organisations.
Another organisation with a distinguished history is the Indian Association for the Cultivation of Science (IACS), which was founded in 1876 by Dr. Mahendra Lal Sircar. It is the oldest scientific establishment in Asia and the cradle of Indian modern science. Numerous distinguished scientists have come from the institute, notably Sir C.V. Raman, who made the discovery of the Raman effect here. The institute provides Ph.D. programmes in condensed matter physics, theoretical physics, atomic, molecular, and optical physics, spectroscopy, solar cell physics, and nanoscience, among other fields of physics. An interview and the national level entrance exam (JEST) determine admission. The institute has a number of ongoing projects financed by several agencies, as well as cutting-edge infrastructure and equipment for study.
One of the top institutes for research and instruction in computer technology, statistics, mathematics, and allied fields is the Indian Statistical Institute (ISI). The Government of India has designated it as an Institute of National Importance. Professor P.C. Mahalanobis created it in 1931. Physics, mathematics, statistics, computer science, quality engineering and management, cryptology and security, library and information science, languages, and sociology are among the fields in which the institute provides Ph.D. programmes. Both an interview and a written exam determine admittance. The institute holds numerous conferences, seminars, and workshops all year long in addition to having a thriving academic culture.
If you’re interested in starting from scratch to learn quantum computing in India, you’ve come to the right place! In this blog post, I’ll provide you with some helpful advice and resources on how to get started with quantum computing, as well as information on prerequisites, courses, online and offline learning environments, institutes that offer quantum education, career opportunities, the future of quantum computing, and languages used in the field. Let’s get started!
The topic of quantum computing is exciting and fast developing, with the potential to transform many branches of science and technology. Information can be processed by quantum computers in ways that are not feasible for classical computers by using the concepts of quantum physics. Certain problems, such as factoring big numbers, simulating quantum systems, optimising intricate functions, and cracking encryption methods, can be solved by quantum computers far more quickly than by classical computers.
Having a strong foundation in physics and maths is the first thing you should do. Proficiency in complex numbers, probability, mathematics, linear algebra, and fundamental quantum physics are prerequisites for quantum computing. Although you don’t have to be an expert on these subjects, you should feel at ease discussing them.
The next thing you need to do is to choose a suitable course or program that covers the fundamentals of quantum computing. There are many options available online and offline for learners of different levels and backgrounds.
– Michael Nielsen’s Quantum Computing for the Determined on YouTube: This is a collection of 22 quick films that provide a straightforward and understandable introduction to the fundamental ideas and methods of quantum computing.
– Umesh Vazirani’s Quantum Computation on edX: The course addresses the mathematical underpinnings and applications of quantum computing and is self-paced. It also offers tasks in programming with Qiskit, a quantum computing environment.
– Coursera offers IBM’s Quantum Computing Fundamentals: The fundamentals of quantum computing and the use of IBM’s quantum devices and simulators are covered in this approachable course for beginners. It also consists of interactive labs with Qiskit.
– Quantum Computing by Microsoft on Microsoft Learn: This is a learning path that consists of several modules that explain the principles and practice of quantum computing. It also includes tutorials on how to use Q#, a programming language for quantum computing.
– IIT Madras’ M.Tech in Quantum Technology programme: Students enrolled in this two-year master’s programme will learn about the theory and applications of quantum technology. Quantum information theory, quantum algorithms, quantum error correction, quantum cryptography, and quantum machine learning are among the subjects covered in the programme.
– IISc Bangalore’s 6-month Certificate Programme in Quantum Computing: This programme gives students an overview of the fundamentals and contemporary developments in quantum computing. Qubits, gates, circuits, algorithms, complexity, cryptography, error correction, and hardware platforms are among the subjects covered in the course.
– CDAC’s Quantum Computing Diploma Pune: Students enrolled in this one-year diploma programme learn how to build and construct quantum hardware and software. Quantum logic, quantum programming languages, quantum simulators, quantum architectures, and quantum applications are among the subjects covered in the curriculum.
Getting some practical experience with creating and executing quantum programmes is one of the most crucial parts of learning quantum computing. You must master a few programming languages and frameworks that are appropriate for quantum computing in order to accomplish this. Several widely used languages and frameworks include:
IBM’s cloud-based quantum devices and simulators can be programmed and operated using quantum programmes using the open-source Qiskit framework. Python is a high-level and popular programming language. With Qiskit, you can develop quantum programmes using Python. Additionally, Qiskit offers tools and libraries for creating quantum applications in fields including finance, chemistry, machine learning, and optimisation.
Quantum algorithms can be expressed using a domain-specific programming language called Q#. Microsoft’s Quantum Development Kit (QDK), which comes with a host programme interface, debugger, resource estimator, and simulator, is intended to be used with Q#. It is possible to combine Q# with Jupyter notebooks, C#, and Python, among other languages.
For writing and executing quantum programmes on Google’s cloud-based quantum processors and simulators, utilise the open-source Cirq framework. Python may be used to develop quantum programmes with Cirq. In addition, Cirq offers capabilities including circuit optimisation, noise models, visualisation, and framework interoperability.
You can further develop your abilities and expertise in this area by working on projects or conducting research after completing a course or programme in quantum computing and learning a few programming languages and frameworks. In India, there are plenty of chances for professionals and students to participate in quantum computing research and initiatives.
– Tata Institute of Fundamental Research (TIFR): One of the top research centres in India, TIFR carries out studies in computer science, physics, mathematics, chemistry, and biology. Theoretical and experimental aspects of quantum information processing are the focus of the Quantum Information and Computation Group at TIFR.
– Harishchandra Research Institutes (HRI): Numerous groups at IISER focus on various facets of quantum computing, including quantum metrology, quantum optics, quantum information theory, quantum algorithms, and quantum cryptography.
– Centre for Development of Advanced Computing (CDAC): CDAC is an autonomous scientific society under the Ministry of Electronics and Information Technology that develops and deploys IT solutions for various sectors. CDAC has a Quantum Computing Group that works on developing software tools and platforms for quantum computing.
– IISC Bangalore: Indian Institute of Science (IISc) is a premier research institution in India with a strong focus on various scientific and technological disciplines. Quantum computation is an emerging and interdisciplinary field that combines physics, computer science, and engineering.
You can learn more about the possibilities for a career in quantum computing by working on projects or conducting research in this area. The multidisciplinary and developing subject of quantum computing presents numerous opportunities for impact and innovation.
– Banking and finance: The security, precision, and speed of financial services and transactions can all be enhanced by quantum computing. Quantum computing, for instance, can be used to mimic market situations, improve portfolio management, and crack encryption techniques.
– Biotechnology and healthcare: The use of quantum computing can improve disease and disorder detection, treatment, and prevention. Quantum computing, for instance, can be used to simulate biological systems, analyse genomic data, and create new medications.
– Energy and the environment: Energy production, delivery, and consumption may all be optimised with the aid of quantum computing. Quantum computing, for instance, can aid in the development of novel materials, enhanced solar cells, and decreased greenhouse gas emissions.
– Defence and security: The capabilities and effectiveness of defence and security systems can be improved with the use of quantum computing. Quantum computing, for instance, can be used to encrypt data and identify stealth planes.
Quantum computing has a bright and hopeful future. The subject of quantum computing is predicted to experience exponential growth in the upcoming years due to increased research and development. It is also anticipated that quantum computing would open up new computational and communication paradigms and avenues. In addition to being a scientific and technological challenge, quantum computing presents a cultural and social opportunity.
So, what are you waiting for? Start your quantum journey today and join the quantum revolution!
Applicants are welcome to apply for phd in isi kolkata 2024 under the auspices of the ISI Kolkata in the following departments :
1. For isi kolkata phd admission 55% or equivalent in masters is mandatory for general candidates, while for SC/ST/OBC (non- creamy layer)/Differently-abled and other categories 50% marks is
2. DST- INSPIRE/ NET/JEST/ ISI Test qualification
3. Minimum eligibility as per the UGC rules
ISI only grants PhDs in the fields specified. The relevant JRF selection committee of the institute will conduct an interview after holding a separate written test for candidates who have been awarded a Junior Research Fellowship in any of the five aforementioned areas by NBHM, CSIR, UGC, ICMR, DBT, or Inspire, following a nationally conducted written test. These candidates may then be chosen for admission to the PhD programme at ISI. On the Admission page at https://www.isical.ac.in/~admission/, information will be made available.
Subject | Research Interests |
Statistics | Asymptotic Theory in Statistics, Decision Theory, Statistical Inference: parametric, nonparametric and semi-parametric, Bayesian Analysis, Model Selection, Resampling Plans, Sequential Analysis, Sequential Plan, Multivariate Analysis, Parametric/ Non-parametric Regression Analysis, Robustness, Minimum Distance Methods, Discrete and Categorical Data Analysis, Linear Models, Parametric/ |
Mathematics | Algebraic Topology, Differential Topology, Dynamical systems, Algebraic Geometry, Commutative Algebra and Affine Algebraic Geometry, Functional Analysis, Geometry of Banach Spaces, Spectral Theory of Differential Operators, Non-commutative Geometry, Harmonic Analysis, Wavelet Analysis, |
Quantitative Economics | Microeconomics, Macroeconomics, International Trade, Development Economics, Welfare Economics, Game Theory, Voting Theory, Contract Theory, Industrial Organisation, |
Computer Science: | Computer Networks – ad hoc, Wireless Sensor, Wireless Mesh, UMTS Network |
Quality, Reliability & Operations Research (QROR) | Digital supply chain modeling, Operations |
Junior Research Fellowships are also available from the Institute in a number of social science and natural science fields. Candidates pursuing a Ph.D. in any field other than the five listed in above table must register with different universities or institutes in order to pursue their degree. A Junior Research Fellow is the initial status of admission for a student. Junior Research Fellows are evaluated for Senior Research Fellowships after two years of satisfactory progress, which includes finishing required course work.
The Junior and Senior Research Fellowships have a combined duration of 6+1 year.
When a candidate is accepted as a Junior Research Fellow and applies to register for a Ph.D. programme in the relevant field, they typically have to successfully finish the mandatory coursework, which entails taking at least five courses from the discipline’s course list. Under the supervision of a supervisor chosen by the Institute, he or she is expected to conduct original research in one of the aforementioned fields, culminating in a doctoral thesis that must be submitted in order to be awarded the Institute’s Ph.D. Those who demonstrate adequate progress towards the aforementioned objective may apply for ISI’s Ph.D. programme.
JEST or Joint Entrance Screening Test is a national eligibility test. Twenty public research institutes in India use the Joint Entrance Screening Test to select applicants for admission to MSc, Integrated PhD, and PhD programmes in Physics, Theoretical Computer Science, Neuroscience, and Computational Biology.
The Science & Engineering Research Board (SERB) recognises JEST as a National Eligibility Test (NET). A fellow may be eligible for an enhanced fellowship if they are employed by SERB programmes.
Institute | State | Research Areas |
IISER Pune | Maharashtra | Field Theory, Theoretical Particle Physics, Condensed Matter Physics, Non-linear Dynamics, Complex Systems and Networks, Nuclear Magnetic Resonance Spectroscopy, Quantum Information Processing, Radio Astrophysics, Atomic Physics and Quantum Optics, Energy Studies, Solar and Plasma Physics, Nanosciences, Scanning Probe Techniques, and Semiconductor Physics and Devices. |
IISER Bhopal | Madhya Pradesh | Condensed Matter Physics (Theory and Experiment), |
IISER Mohali | Punjab | Quantum Information (Experiment and Theory), Complex systems & Networks, Theoretical Astrophysics & Cosmology, Particle Physics and Field Theory, Statistical physics, Quantum thermodynamics, Condensed Matter (Theory and Experiment), NMR-Methodology, Ultra-fast Physics, low temperature physics. |
IISER Kolkata | West Bengal | Condensed Matter Physics, Field Theory, Classical & Quantum Gravity, Cosmology, Solar Science, High Energy Physics, Non-linear dynamics, Statistical Physics, Soft Matter, Optics & Spectroscopy, Atomic physics, Biophotonics, Spintronics, Nanoscience, NMR, Quantum Information |
IISER Thiruvananthapuram | Kerala | Experimental: Magnetism, Superconductivity, Nanoscience, Photonics, Semiconductor physics, Surface sciences, Nanoscale plasmonics, Ultrafast spectroscopy, Nonlinear Optics. Theory: Cosmology, Quantum information, Statistical physics, Condensed matter, String theory & Nonlinear dynamics. |
IISER Tirupati | Andhra Pradesh | Theoretical Astrophysics, Observational Astronomy, Theoretical Condensed Matter Physics, Soft Matter Physics, Nonlinear Physics, Experimental High Energy Physics, Atomic and Molecular Physics |
IISER Berhampur | Odisha | Condensed matter physics (Theory and Experiment), Electronic Materials & Devices, High energy physics (Theory, Phenomenology,Experiment), Nuclear Structure, Photonics, Quantum Theory,Quantum Information. |
Institute | State | Research Areas |
IISER Pune | Maharashtra | Field Theory, Theoretical Particle Physics, Condensed Matter Physics, Non-linear Dynamics, Complex Systems and Networks, Nuclear Magnetic Resonance Spectroscopy, Quantum Information Processing, Radio Astrophysics, Atomic Physics and Quantum Optics, Energy Studies, Solar and Plasma Physics, Nanosciences, Scanning Probe Techniques, and Semiconductor Physics and Devices. |
IISER Bhopal | Madhya Pradesh | Condensed Matter Physics (Theory and Experiment), |
IISER Mohali | Punjab | Quantum Information (Experiment and Theory), Complex systems & Networks, Theoretical Astrophysics & Cosmology, Particle Physics and Field Theory, Statistical physics, Quantum thermodynamics, Condensed Matter (Theory and Experiment), NMR-Methodology, Ultra-fast Physics, low temperature physics. |
IISER Kolkata | West Bengal | Condensed Matter Physics, Field Theory, Classical & Quantum Gravity, Cosmology, Solar Science, High Energy Physics, Non-linear dynamics, Statistical Physics, Soft Matter, Optics & Spectroscopy, Atomic physics, Biophotonics, Spintronics, Nanoscience, NMR, Quantum Information |
IISER Thiruvananthapuram | Kerala | Experimental: Magnetism, Superconductivity, Nanoscience, Photonics, Semiconductor physics, Surface sciences, Nanoscale plasmonics, Ultrafast spectroscopy, Nonlinear Optics. Theory: Cosmology, Quantum information, Statistical physics, Condensed matter, String theory & Nonlinear dynamics. |
IISER Tirupati | Andhra Pradesh | Theoretical Astrophysics, Observational Astronomy, Theoretical Condensed Matter Physics, Soft Matter Physics, Nonlinear Physics, Experimental High Energy Physics, Atomic and Molecular Physics |
IISER Berhampur | Odisha | Condensed matter physics (Theory and Experiment), Electronic Materials & Devices, High energy physics (Theory, Phenomenology,Experiment), Nuclear Structure, Photonics, Quantum Theory,Quantum Information. |
Soon, the official JEST 2024 exam link will be created. Applicants may complete the JEST 2024 application online. They had to pay the application fee online using net banking or a credit/debit card after completing the application. Only online payments for the application fee will be accepted.
The JEST application form 2024 requires registration, which entails providing your contact and personal information. Candidates then need to use their registration credentials to log in and complete the application, including information about their schooling, choosing their preferred exam cities, courses, and universities, as well as submitting supporting documentation, a photo, and their signature. The application cost must be paid as the final step.
After qualifying JEST exam, after few days candidates will receive a valid score card . the score card is useful for one year. All the participating institutes releases their application form for PhD admission separately. No centralized counselling is held. Using the scorecard candidate needs to feel the application form .
Students will be shortlisted on the basis of rank and criteria mentioned by respective institutes. Shortlisted candidates will be called for interview. After passing the interview student cam join the institute. Fellowship amount is same as UGC / CSIR JRF.
The exam administrators provide the JEST 2024 mock test, also known as the demo test, following the completion of online applications and the issuance of admission cards. Nine questions in all, three questions each subject across three sections, make up the official mock exam. The purpose of the official JEST mock test is to familiarise candidates with the format and navigation of the exam. Students must complete the sample papers that the exam administrators have given in order to have an idea of the kinds of questions to anticipate.
Exam preparation includes, among other things, JEST 2024 sample test practise. It was recommended that candidates take the practise exams provided by unauthorised sources, such tutoring centres. Candidates may also attempt the JEST sample exams, which are accessible below
JEST is CBT based exam.If you want to practise for the JEST exam the following year, you can get past years’ question papers by clicking the button below on our website. Completing past years’ exam question papers is crucial to acing the test.
For regular full-time PhD admission in IACS kolkata .applicants are invited to apply to the PhD Program in the spring semester of 2024 under the auspices of the IACS (A deemed to be University) in the following schools: Applied and Interdisciplinary Sciences, Biological Sciences, Chemical Sciences, Material Sciences, Mathematical and Computational Sciences, and Physical Sciences. A applicant may submit an application, using the relevant selections on the application form, to a maximum of two schools.
1. 55% or equivalent in masters is mandatory for general candidates, while for SC/ST/OBC (non- creamy layer)/Differently-abled and other categories 50% marks is
2. DST- INSPIRE/ NET fellowship
3. Minimum eligibility as per the UGC rules
As per IACS/CSIR/UGC/INSPIRE rules.
Should be below 28 years on the date of application. Age relaxation is applicable as per
Government of India rule.
Applicant should be Indian
.
Number of vacancies | Broad Research Area (Subject Code) | Essential qualification |
1 | Synthesis of nano-micro structures for light harvesting devices (SAIS01) | M.Sc. in Physics / Chemistry with CSIR- NET (JRF) or other fellowships |
2 | Design and fabrication of Nanoelectronic devices (SAIS02), | M. Sc. in Organic Chemistry/ Chemistry with CSIR-NET (JRF) or other fellowships |
2 | Organic synthesis of Conjugated chromophores for device application (SAIS 03) | M.Sc. in Organic Chemistry / Physical Chemistry with CSIR-NET (JRF) or other fellowships |
2 | Optoelectronic Devices: Neuromorphic Memory Devices, Light Emitting Transistors with conjugated chromophores as active medium. (SAIS 04) | M. Sc. in Physics or Physical Chemistry with CSIR-NET (JRF) or other fellowships |
1 | Physical Properties of Polymers (SAIS 07) | MS / M. Sc. in Chemistry (Organic / Physical) with CSIR-NET (JRF) or other fellowships. |
1 | Supramolecular Assemblies for organic optoelectronics (SAIS 05) | M.Sc. in Chemistry (Inorganic or Physical specialization) with CSIR-NET (JRF) or other fellowships. |
1 | Ferroelectric Nanocrystals for memory applications (SAIS 06) | M.Sc. in Physics (Solid State Physics/Materials Science/Electronics specialization) with CSIR-NET (JRF) or other fellowships. |
2 | Novel Micro Energy Harvesting and Sensing Materials 2. Flexible Electronics (SAIS-08) | NET-CSIR/NET-UGC/Inspire |
Number of vacancies | Broad Research Area ( Subject Code) | Essential qualification |
1 | Peptide based biomaterials in health care (SBS01) | MSc. in Chemistry/Bio-chemistry/equivalent/ SAIS or SMS students from IACS ( If interested) |
1 | Bio-Organic Chemistry/Biomedicine in Therapeutics (SBS02) | MSc in Chemistry/Biochemistry/ Allied Subject domain Fellowship: INSPIRE/DBT/etc |
Number of vacancies | Broad Research Area (Subject Code) | Essential qualification |
2 | Spectroscopy, Biochemistry (SCS 01) | CSIR-JRF, UGC-JRF DST inspire |
4 | Chemistry of N-confused Bilanes and Heterocyclic macrocycles (SCS 02) | MSc in Organic/Inorganic/Physical Chemistry 3: CSIR-JRF or UGC-JRF 1: DST-INSPIRE |
1 | Supramolecular chemistry of biomaterials(Organic/Inorganic) (SCS 03) | M.Sc. in Organic Chemistry / Physical Chemistry with CSIR-NET (JRF) or other fellowships |
2 | Theoretical/computational physical chemistry (SCS 04) | M. Sc. in physics/chemistry with UGC/CSIR-JRF or Inspire |
1 | Physical Chemistry; Computational chemistry (SCS 05) | M. Sc. in physics/chemistry UGC/CSIR-JRF or Inspire |
1 | Beyond Born-Oppenheimer theories, Spectroscopy Reaction dynamics, Molecule-Surface Scattering (SCS 06) | M. Sc. in physics/chemistry UGC/CSIR-JRF or Inspire |
2 | Inorganic and Bioinorganic Chemistry (SCS 07) | MSc in Chemistry JRF/LS (Joint UGC-CSIR NET), DST Inspire, GATE |
2 | Organic Chemistry (Natural Product Synthesis) (SCS 08) | M.Sc. Chemistry/Organic Chemistry UGC/CSIR-JRF |
1 | Organic Synthesis (SCS 09) | MSc Chemistry, Organic Synthesis (SCS 09) UGC/CSIR-JRF |
1 | Chemical Biology (SCS 10) | MSc Bio-chemistry/Biotechnology/Life Sciences, CSIR-NET/INSPIRE |
Number of vacancies | Broad Research Area (Subject Code) | Essential qualification |
2 | nanobiotechnology | MSc in chemistry with CSIR/UGC |
2 | Inorganic and Physical chemistry specialization | Master's degrees in chemistry |
1 | Experimental materials physics, quantum materials, magnetism, multiferroicity, and through CSIR NET, UGC, or DST X-ray based spectroscopies | Master's in Physics with fellowship |
2 | Theoretical/computational physical chemistry (SCS 04) | M. Sc. in physics/chemistry with UGC/CSIR-JRF or Inspire |
2 | Optoelectronics and Energy Harvesting | Master in Physics/Chemistry/Materials with JRF(CSIR/UGC) |
Number of vacancies | Broad Research Area ( Subject Code) | Essential qualification |
1 | Natural Language processing OR Image processing (SMCS-01) | MS/MTech in Computer Science or relevant area. UGC NET JRF qualified or with external funding. |
2 | Complex Analysis and Complex Dynamics (SMCS-02) | The candidates should have qualified NET(LS, CSIR, UGC) / GATE/NBHM. |
1 | Formal Verification of Cyber-Physical Systems (SMCS-03) | B.Tech./B.E./M.Tech./M.Sc. in Computer Science. UGC JRF qualified. 60% marks in undergraduate and masters degree |
Number of vacancies | Broad Research Area ( Subject Code) | Essential qualification |
2 | Experimental condensed matter physics - superconductivity and magnetism in quasi- 2D and quasi- I D materials. | NET -UGC/CSIR or inspire fellowship |
1 | Experimental condensed matter physics - Physics and application of conducting polymers | NET -UGC/CSIR or inspire fellowship |
2 | M.Sc. in physics with CSIR-NET/UGC/ INSPIRE awarded own fellowship | Experimental condensed matter physics: Optoelectronics of 2D "seniemductors " |
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If you want to pursue a PhD in India, you may be wondering which institution is best for your PhD admission. The answer may vary depending upon the individual. You have to consider various factors like reputation of the institution, faculty, funding, outreach and placement opportunities. We will compare two of the most popular choices for phD admission in India: Central University and Indian Institute of Technology(IIT)
Central University is a generic term for any university established by an Act of Parliament and funded by the central government. Currently there are 54 central universities in India at different locations. The research details of top 7 central universities is given below:
Name | State | NIRF Ranking |
Banaras Hindu University | Uttar Pradesh | 16 |
University of Delhi | Delhi | 17 |
Jawaharlal Nehru University | Delhi | 18 |
Jamia Millia Islamia | Delhi | 20 |
Aligarh Muslim University | Uttar Pradesh | 23 |
University of Hyderabad | Telangana | 28 |
Panjab University | Punjab | 33 |
IITs are also funded by the central government and established by Act of Parliament. IITs are a group of 23 autonomous public technical institutes. They are divided into 3 generations according to their date of establishment. Research in IITs are technology and science oriented .Research Details of first generation IITs is given below:
Name | State | NIRF Ranking |
Indian Institute of Technology Madras | Tamil Nadu | 2 |
Indian Institute of Technology Delhi | Delhi | 3 |
Indian Institute of Technology Bombay | Maharashtra | 4 |
Indian Institute of Technology Kharagpur | West Bengal | 5 |
Indian Institute of Technology Kanpur | Uttar Pradesh | 6 |
Indian Institute of Technology Roorkee | Uttarakhand | 7 |
Indian Institute of Technology Guwahati | Assam | 9 |
Both central universities and IITs have their own advantages and disadvantages. Let’s look at the various aspects which will help you to decide which is best for you.
At Least 55% marks in master degree is required. For applying in IITs for PhD admission you have to qualify either NET-JRF or GATE examinations. NET examination is conducted by UGC/ UGC- CSIR . Where the GATE examination is conducted by IITs .
For applying to a central university you will need to qualify the NET-JRF examination. GATE is not valid for central university admission. Sometimes these universities conduct their own examination for admission.
Both offer various scholarships and fellowships to PhD candidates, such as UGC NET JRF, CSIR-NET JRF, DST-INSPIRE fellowships. Monthly stipend is 37000 with HRA for 2 years and 42000 with HRA for 3 years.
PMRF: PMRF is a special fellowship which is a Prime minister research fellowship, given to the most enthusiastic students of all premiere institutes. The amount is 80000 per month. It is becoming most wanted fellowship for PhD admission in india.Not all the institutes are eligible for this. List of all eligible institutes given bellow:
IITs and IIsers
IISc Bangalore
Jawaharlal Nehru University
Jamia Millia Islamic
Aligarh Muslim University
University of Hyderabad
In the academic community , both enjoy a solid national and worldwide reputation , however the standings could change based on the discipline and the particular organization. According to the NIRF ranking some central universities surpassed many IITs in terms of academic research. We have to also consider the fact that all IITs are not equal . The new IITs lag behind many universities. The reputation also depends on the subject. For instance, JNU is recognised as one of the top institutes in the humanities and social sciences, whereas IITs are well known for their research in engineering and technology. As a result , before applying, you should research the ranking of the particular department and institution that interests you.
Both have highly qualified and experienced faculty with international collaborations who are experts in their field. According to all India Survey in Higher Education 2019-2020, the average faculty-student ratio for central universities was 1:24 while for IITs it was 1:15. This means you may get more individual attention and guidance from your supervisor at an IIT.
Both Central University and IIT offer good placement opportunities to PhD graduates in various sectors such as academia, industry, government, NGOs, etc. However, the placement rate and salary may vary depending on the discipline, the institution, and the market demand. For example, some Central Universities may have better placement prospects for humanities and social sciences graduates than some IITs, while some IITs may have better placement prospects for engineering and technology graduates than some Central Universities.
Therefore, you should check the placement records and alumni network of the specific institution and department that you are interested in before applying.
Both Central university and IIT are top-tier for PhD in India , but they have different strengths and weaknesses on the basis of discipline, individual institution ranking , and the department. You should also consider your own interests, goals, and preferences, as they are the most important factors for a successful and satisfying PhD journey.