jishnurajendran · December 18, 2024 22:53
diff --git a/resume.json b/resume.json
 {
  "basics": {
    "name": "Jishnu Rajendran",
    "label": "Quantum Physicist",
    "picture": "https://avatars.githubusercontent.com/u/10544069?v=4",
    "email": "[email protected]",
    "phone": "918281245010",
    "website": "https://jishnurajendran.github.io/",
    "summary": " ",
    "location": {
      "address": "Kaliyar P.O, Kerala, India",
      "postalCode": "685607",
      "city": "Kerala",
      "countryCode": "IN",
      "region": "Thodupuzha"
    },
    "profiles": [
      {
        "network": "LinkedIn",
        "username": "jishnurajendran",
        "url": "https://www.linkedin.com/in/jishnurajendran"
      }
    ]
  },
  "work": [
    {
      "company": "University of Catania",
      "position": "PhD Scholar",
      "website": "https://www.unict.it/en",
      "startDate": "2018-12-01",
      "endDate": "2024-07-30",
      "summary": "Research focusing on Superconducting qubits, especially we explored the dynamics and applications of Ultra-Strong Coupling in open quantum systems for advancing quantum technology",
      "highlights": [
        "Developed efficient and optimal protocol for state transfer for open, realistic quantum systems for quantum technology ",
        "Developed quantum simulation of light-matter open quantum system, employed quantum optimal control, improved the efficency, robustness of state transfer protocol to 99.99% for realistic quantum superconducting qubits."
      ]
    },
    {
      "company": "National Institute of Science Education and Research",
      "position": "Researcher",
      "website": "https://niser.ac.in",
      "startDate": "2017-05-25",
      "endDate": "2018-09-25",
      "summary": "Implemented a true quantum parrondo's game for the first time ever using quantum walk.",
      "highlights": [
        "Played a key role in the development of quantum version of parrondo's game, key innovation in the field of quantum game theory and quantum computation",
        "Improvements on quantum game 'Parrondo's paradox' provide key insights into quantum walks, quantum information processing, and quantum algorithms, while also inspiring novel approaches in diverse fields such as COVID-19 epidemic management strategies and financial investment optimization."
      ]
    }
  ],
  "volunteer": [
    {
      "organization": "Zaariya",
      "position": "Outreach Coordinator",
      "website": "https://zaariya.wixsite.com/zaariya",
      "startDate": "2015-05-01",
      "endDate": "2016-05-01",
      "summary": "Conducted outreach activities and coordinated events for Zaariya, the Social Services Club of NISER, Bhubaneswar, focusing on helping children from financially disadvantaged backgrounds.",
      "highlights": [
        "Organized and participated in visits to provide support and resources to underprivileged children.",
        "Coordinated community events such as the food fest and blood donation capms to raise awareness and funds for the organization's mission.",
        "Assisted in planning and executing various inclusive community activities to benefit children from poor financial backgrounds.",
        "Collaborated with faculty and fellow volunteers to implement the club's vision and commitments."
      ]
    }
  ],
  "education": [
    {
      "institution": "University of Catania",
      "area": "Quantum technology",
      "studyType": "Doctorate",
      "startDate": "2018-12-01",
      "endDate": "2024-07-30",
      "gpa": "",
      "courses": [
        "Quantum technology",
        "Open quantum system"
      ]
    },
    {
      "institution": "NISER, India",
      "area": "Physics",
      "studyType": "M.Sc.",
      "startDate": "2012-05-01",
      "endDate": "2017-06-01",
      "gpa": "",
      "courses": [
        "Quantum information",
        "Numerical Analysis",
        "Advanced Algebra (I-IV)"
      ]
    }
  ],
  "awards": [
    {
      "title": "INSPIRE Fellow",
      "date": "2012",
      "awarder": "Department of Science and Technology, India",
      "summary": "Awarded for distinguished students in research institutes."
    }
  ],
  "publications": [
    {
      "name": "Optimized state transfer in systems of ultrastrongly coupled matter and radiation",
      "publisher": "SIF",
      "releaseDate": "2022-03",
      "website": "https://doi.org/10.1393/ncc/i2022-22171-y",
      "summary": "Ultrastrong coupling may allow faster operations for the development of quantum technologies at the expenses of increased sensitivity to new kind of intrinsic errors."
    },
    {
      "name": "Playing a true Parrondo's game with a three-state coin on a quantum walk",
      "publisher": "IOP Publishing",
      "releaseDate": "2018-06",
      "website": "https://doi.org/10.1209/0295-5075/122/40004",
      "summary": "Research on Parrondo's game implementation using quantum walks with a three-state coin."
    },
    {
      "name": "Implementing Parrondo's paradox with two-coin quantum walks",
      "publisher": "The Royal Society",
      "releaseDate": "2018-02",
      "website": "https://doi.org/10.1098/rsos.171599",
      "summary": "Study on implementing Parrondo's paradox using quantum walks with two coins."
    },
    {
      "name": "Probing ultrastrong light-matter coupling in open quantum systems",
      "publisher": "Springer Science and Business Media LLC",
      "releaseDate": "2021-05",
      "website": "https://doi.org/10.1140/epjs/s11734-021-00070-8",
      "summary": "Investigation of ultrastrong light-matter coupling in open quantum systems."
    },
    {
      "name": "Coherent trapping in small quantum networks",
      "publisher": "IOP Publishing",
      "releaseDate": "2019-12",
      "website": "https://doi.org/10.1088/1742-5468/ab54b7",
      "summary": "Study of coherent trapping phenomena in small quantum networks. An important feature needed in quantum communication protocols "
    },
    {
      "name": "Coarse-grained dynamics of ac-driven two-state systems",
      "publisher": "SIF",
      "releaseDate": "2022-08",
      "website": "https://doi.org/10.1393/ncc/i2022-22173-9",
      "summary": "Magnus expansion is used to identify effective Hamiltonians describing the coarse-grained dynamics of more complex problems in two-level systems driven by AC fields."
    }
  ],
  "skills": [
    {
      "name": "Quantum technology",
      "level": "Master",
      "keywords": [
        "Open Quantum Systems",
        "Quantum Error Correction",
        "Quantum Algorithms",
        "Quantum Control",
        "Quantum Information Theory",
        "Quantum Simulation",
        "Quantum Cryptography",
        "Quantum Sensing"
      ]
    },
    {
      "name": "Research",
      "level": "Master",
      "keywords": [
        "Mathematical Reasoning",
        "Research Methodology",
        "System Modelling",
        "Statistical Analysis",
        "Interdisciplinary Collaboration",
        "Data Interpretation",
        "Hypothesis Testing",
        "Scientific Writing",
        "Literature Review",
        "Critical Thinking",
        "Problem-Solving",
        "Quantitative Reasoning",
        "Pattern Recognition"
      ]
    },
    {
      "name": "Programming",
      "level": "Expert",
      "keywords": [
        "Python",
        "Julia",
        "C++",
        "MATLAB",
        "Qiskit",
        "Cirq",
        "Bash",
        "Git",
        "Numerical Analysis",
        "Machine Learning Libraries (PyTorch)",
        "Data Visualization (Matplotlib, Seaborn)",
        "Scientific Computing (NumPy, SciPy)",
        "High-Performance Computing",
        "Parallel Programming",
        "Object-Oriented Programming",
        "Functional Programming",
        "Version Control",
        "Emacs Lisp (elisp)"
      ]
    },
    {
      "name": "Optimal Control",
      "level": "Expert",
      "keywords": [
        "Quantum Optimal Control",
        "Pulse Shaping",
        "Hamiltonian Engineering",
        "Dynamical Decoupling",
        "Quantum Gate Synthesis",
        "System Modelling"
      ]
    },
    {
      "name": "Data Analysis",
      "level": "Expert",
      "keywords": [
        "Statistical Analysis",
        "Data Visualization",
        "Big Data Processing",
        "Numerical Methods",
        "Monte Carlo Simulations"
      ]
    }
  ],
  "languages": [
    {
      "language": "English",
      "fluency": "Fluent"
    },
    {
      "language": "Malayalam",
      "fluency": "Fluent"
    },
    {
      "language": "Italian",
      "fluency": "Beginner"
    },
    {
      "language": "Hindi",
      "fluency": "Fluent"
    }
  ],
  "interests": [
    {
      "name": "Research and Development",
      "keywords": [
        "Quantum Technologies",
        "Quantum Computing",
        "Quantum Communication",
        "Quantum network",
        "Machine Learning",
        "Data Science",
        "Artificial Intelligence",
        "Space Technologies",
        "Cybersecurity",
        "Advanced Connectivity"
      ]
    },
    {
      "name": "Quantum Technologies",
      "keywords": [
        "Superconducting Qubits",
        "Open Quantum Systems",
        "Ultra-strong Coupling",
        "Quantum Simulation",
        "Quantum Control",
        "Quantum Information Processing",
        "Quantum Communication and Networking",
        "Quantum Optics",
        "Quantum Sensing and Metrology",
        "Quantum Materials",
        "Quantum Thermodynamics",
        "Quantum Error Correction",
        "Quantum Algorithms",
        "Quantum-Classical Hybrid Systems",
        "Quantum Machine Learning",
        "Quantum Cryptography",
        "Quantum Nanoscience"
      ]
    },
    {
      "name": "Interdisciplinary Applications",
      "keywords": [
        "Quantum-assisted Optimization",
        "Quantum-inspired Artificial Intelligence",
        "Quantum Finance",
        "Quantum-enhanced Sensing",
        "Quantum Imaging",
        "Quantum Chemistry",
        "Quantum-enhanced Precision Measurements"
      ]
    },
    {
      "name": "Theoretical Methods",
      "keywords": [
        "Quantum Electrodynamics",
        "Quantum Many-body Physics",
        "Non-equilibrium Quantum Dynamics",
        "Quantum Measurement Theory",
        "Quantum Noise and Decoherence",
        "Quantum Information Theory"
      ]
    }
  ]
 }
	{
	"basics": {
	"name": "Jishnu Rajendran",
	"label": "Quantum Physicist",
	"picture": "https://avatars.githubusercontent.com/u/10544069?v=4",
	"email": "[email protected]",
	"phone": "918281245010",
	"website": "https://jishnurajendran.github.io/",
	"summary": " ",
	"location": {
	"address": "Kaliyar P.O, Kerala, India",
	"postalCode": "685607",
	"city": "Kerala",
	"countryCode": "IN",
	"region": "Thodupuzha"
	},
	"profiles": [
	{
	"network": "LinkedIn",
	"username": "jishnurajendran",
	"url": "https://www.linkedin.com/in/jishnurajendran"
	}
	]
	},
	"work": [
	{
	"company": "University of Catania",
	"position": "PhD Scholar",
	"website": "https://www.unict.it/en",
	"startDate": "2018-12-01",
	"endDate": "2024-07-30",
	"summary": "Research focusing on Superconducting qubits, especially we explored the dynamics and applications of Ultra-Strong Coupling in open quantum systems for advancing quantum technology",
	"highlights": [
	"Developed efficient and optimal protocol for state transfer for open, realistic quantum systems for quantum technology ",
	"Developed quantum simulation of light-matter open quantum system, employed quantum optimal control, improved the efficency, robustness of state transfer protocol to 99.99% for realistic quantum superconducting qubits."
	]
	},
	{
	"company": "National Institute of Science Education and Research",
	"position": "Researcher",
	"website": "https://niser.ac.in",
	"startDate": "2017-05-25",
	"endDate": "2018-09-25",
	"summary": "Implemented a true quantum parrondo's game for the first time ever using quantum walk.",
	"highlights": [
	"Played a key role in the development of quantum version of parrondo's game, key innovation in the field of quantum game theory and quantum computation",
	"Improvements on quantum game 'Parrondo's paradox' provide key insights into quantum walks, quantum information processing, and quantum algorithms, while also inspiring novel approaches in diverse fields such as COVID-19 epidemic management strategies and financial investment optimization."
	]
	}
	],
	"volunteer": [
	{
	"organization": "Zaariya",
	"position": "Outreach Coordinator",
	"website": "https://zaariya.wixsite.com/zaariya",
	"startDate": "2015-05-01",
	"endDate": "2016-05-01",
	"summary": "Conducted outreach activities and coordinated events for Zaariya, the Social Services Club of NISER, Bhubaneswar, focusing on helping children from financially disadvantaged backgrounds.",
	"highlights": [
	"Organized and participated in visits to provide support and resources to underprivileged children.",
	"Coordinated community events such as the food fest and blood donation capms to raise awareness and funds for the organization's mission.",
	"Assisted in planning and executing various inclusive community activities to benefit children from poor financial backgrounds.",
	"Collaborated with faculty and fellow volunteers to implement the club's vision and commitments."
	]
	}
	],
	"education": [
	{
	"institution": "University of Catania",
	"area": "Quantum technology",
	"studyType": "Doctorate",
	"startDate": "2018-12-01",
	"endDate": "2024-07-30",
	"gpa": "",
	"courses": [
	"Quantum technology",
	"Open quantum system"
	]
	},
	{
	"institution": "NISER, India",
	"area": "Physics",
	"studyType": "M.Sc.",
	"startDate": "2012-05-01",
	"endDate": "2017-06-01",
	"gpa": "",
	"courses": [
	"Quantum information",
	"Numerical Analysis",
	"Advanced Algebra (I-IV)"
	]
	}
	],
	"awards": [
	{
	"title": "INSPIRE Fellow",
	"date": "2012",
	"awarder": "Department of Science and Technology, India",
	"summary": "Awarded for distinguished students in research institutes."
	}
	],
	"publications": [
	{
	"name": "Optimized state transfer in systems of ultrastrongly coupled matter and radiation",
	"publisher": "SIF",
	"releaseDate": "2022-03",
	"website": "https://doi.org/10.1393/ncc/i2022-22171-y",
	"summary": "Ultrastrong coupling may allow faster operations for the development of quantum technologies at the expenses of increased sensitivity to new kind of intrinsic errors."
	},
	{
	"name": "Playing a true Parrondo's game with a three-state coin on a quantum walk",
	"publisher": "IOP Publishing",
	"releaseDate": "2018-06",
	"website": "https://doi.org/10.1209/0295-5075/122/40004",
	"summary": "Research on Parrondo's game implementation using quantum walks with a three-state coin."
	},
	{
	"name": "Implementing Parrondo's paradox with two-coin quantum walks",
	"publisher": "The Royal Society",
	"releaseDate": "2018-02",
	"website": "https://doi.org/10.1098/rsos.171599",
	"summary": "Study on implementing Parrondo's paradox using quantum walks with two coins."
	},
	{
	"name": "Probing ultrastrong light-matter coupling in open quantum systems",
	"publisher": "Springer Science and Business Media LLC",
	"releaseDate": "2021-05",
	"website": "https://doi.org/10.1140/epjs/s11734-021-00070-8",
	"summary": "Investigation of ultrastrong light-matter coupling in open quantum systems."
	},
	{
	"name": "Coherent trapping in small quantum networks",
	"publisher": "IOP Publishing",
	"releaseDate": "2019-12",
	"website": "https://doi.org/10.1088/1742-5468/ab54b7",
	"summary": "Study of coherent trapping phenomena in small quantum networks. An important feature needed in quantum communication protocols "
	},
	{
	"name": "Coarse-grained dynamics of ac-driven two-state systems",
	"publisher": "SIF",
	"releaseDate": "2022-08",
	"website": "https://doi.org/10.1393/ncc/i2022-22173-9",
	"summary": "Magnus expansion is used to identify effective Hamiltonians describing the coarse-grained dynamics of more complex problems in two-level systems driven by AC fields."
	}
	],
	"skills": [
	{
	"name": "Quantum technology",
	"level": "Master",
	"keywords": [
	"Open Quantum Systems",
	"Quantum Error Correction",
	"Quantum Algorithms",
	"Quantum Control",
	"Quantum Information Theory",
	"Quantum Simulation",
	"Quantum Cryptography",
	"Quantum Sensing"
	]
	},
	{
	"name": "Research",
	"level": "Master",
	"keywords": [
	"Mathematical Reasoning",
	"Research Methodology",
	"System Modelling",
	"Statistical Analysis",
	"Interdisciplinary Collaboration",
	"Data Interpretation",
	"Hypothesis Testing",
	"Scientific Writing",
	"Literature Review",
	"Critical Thinking",
	"Problem-Solving",
	"Quantitative Reasoning",
	"Pattern Recognition"
	]
	},
	{
	"name": "Programming",
	"level": "Expert",
	"keywords": [
	"Python",
	"Julia",
	"C++",
	"MATLAB",
	"Qiskit",
	"Cirq",
	"Bash",
	"Git",
	"Numerical Analysis",
	"Machine Learning Libraries (PyTorch)",
	"Data Visualization (Matplotlib, Seaborn)",
	"Scientific Computing (NumPy, SciPy)",
	"High-Performance Computing",
	"Parallel Programming",
	"Object-Oriented Programming",
	"Functional Programming",
	"Version Control",
	"Emacs Lisp (elisp)"
	]
	},
	{
	"name": "Optimal Control",
	"level": "Expert",
	"keywords": [
	"Quantum Optimal Control",
	"Pulse Shaping",
	"Hamiltonian Engineering",
	"Dynamical Decoupling",
	"Quantum Gate Synthesis",
	"System Modelling"
	]
	},
	{
	"name": "Data Analysis",
	"level": "Expert",
	"keywords": [
	"Statistical Analysis",
	"Data Visualization",
	"Big Data Processing",
	"Numerical Methods",
	"Monte Carlo Simulations"
	]
	}
	],
	"languages": [
	{
	"language": "English",
	"fluency": "Fluent"
	},
	{
	"language": "Malayalam",
	"fluency": "Fluent"
	},
	{
	"language": "Italian",
	"fluency": "Beginner"
	},
	{
	"language": "Hindi",
	"fluency": "Fluent"
	}
	],
	"interests": [
	{
	"name": "Research and Development",
	"keywords": [
	"Quantum Technologies",
	"Quantum Computing",
	"Quantum Communication",
	"Quantum network",
	"Machine Learning",
	"Data Science",
	"Artificial Intelligence",
	"Space Technologies",
	"Cybersecurity",
	"Advanced Connectivity"
	]
	},
	{
	"name": "Quantum Technologies",
	"keywords": [
	"Superconducting Qubits",
	"Open Quantum Systems",
	"Ultra-strong Coupling",
	"Quantum Simulation",
	"Quantum Control",
	"Quantum Information Processing",
	"Quantum Communication and Networking",
	"Quantum Optics",
	"Quantum Sensing and Metrology",
	"Quantum Materials",
	"Quantum Thermodynamics",
	"Quantum Error Correction",
	"Quantum Algorithms",
	"Quantum-Classical Hybrid Systems",
	"Quantum Machine Learning",
	"Quantum Cryptography",
	"Quantum Nanoscience"
	]
	},
	{
	"name": "Interdisciplinary Applications",
	"keywords": [
	"Quantum-assisted Optimization",
	"Quantum-inspired Artificial Intelligence",
	"Quantum Finance",
	"Quantum-enhanced Sensing",
	"Quantum Imaging",
	"Quantum Chemistry",
	"Quantum-enhanced Precision Measurements"
	]
	},
	{
	"name": "Theoretical Methods",
	"keywords": [
	"Quantum Electrodynamics",
	"Quantum Many-body Physics",
	"Non-equilibrium Quantum Dynamics",
	"Quantum Measurement Theory",
	"Quantum Noise and Decoherence",
	"Quantum Information Theory"
	]
	}
	]
	}