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Top Experimental Research Topic Ideas for Physics Thesis

Top Experimental Research Topic Ideas for Physics Thesis

For writing a dissertation for your degree in physics thesis, you have a broad spectrum of areas to choose from. Topics can be taken from following fields of physics:

  • Biophysics,

  • Nanoscience and Nanotechnology,

  • Plasma Applications and Technology,

  • Astrophysics, Quantum Science and Technology,

  • Engineering in Physics,

  • Atomic and Molecular Physics,

  • Physics of Fluids,

  • Environmental Physics,

  • Fusion and Plasma Confinement,

  • Topological and Structural Science,

  • Materials Science and Engineering,

  • Photonics,

  • Lasers and Nonlinear Optics,

  • Physics of the Nucleus,

  • Theoretical Physics, etc.

If you are looking for writing a physics thesis paper on any of the above, here are top experimental dissertation topics on different fields of applied Physics:  

  1. Use of micro-ring Lasers for integrated Silicon photonics.

  2. Explain how field deployable Laser can be stabilized with the help of digitally enhanced fibre Interferometers?

  3. How quantum entangled states of light can be stored?

  4. Explain usage of meta materials for Terahertz wave manipulation.

  5. Describe synthetic multi-dimensional photonics.

  6. What is the application of Whispering Gallery Mode Resonators for ultra-sensitive Magnetometry?

  7. Explain principle behind second Harmonic generation for Quantum optics applications.

  8. Explain how squeezed Laser sources can be developed for Quantum communication?

  9. How to perform probabilistic quantum cloning via noiseless linear amplifier?

  10. Machine learning technology for optics science. Explain its mode of controls as well.

  11. Suggest protocol for development of a quantum memory for the optical communication band.

  12. How to develop a planar waveguide photonic quantum processor?

  13. Explain the electromagnetic bound states in the continuum.

  14. Describe metaphotonics and metasurfaces. Compare and give contrasting details with Mie-resonant Nano particles.

  15. Explain topological photonics.

  16. What is meant by Gas sensing of Carbon dioxide gas?

  17. Explain need of optical sensors for Inertial navigation.

  18. How to study the three dimensional imaging of organic and inorganic materials?

  19. What are Nano wire photodetectors?

  20. What is the application of ultra compact Nano-wire lasers in Nano photonics?

  21. How to develop an advanced three dimensional volumetric imaging system?

  22. What are Quantum well Nano wire light emitting devices?

  23. Explain mid-Infrared Astro-photonic components. How are they utilized for the phenomenon of stellar nulling interferometry & planet hunting?

  24. Explain ultra fast Laser ablation for large infrastructure maintenance.

  25. Differentiate between meta surface polarization optics and quantum photonics.

  26. Compare and contrast between quantum photonics and meta surface polarization optics.

  27. Explain Bacteria turbulence. Explain phenomenon of self-organization and diffusion.

  28. Explain few vortex dynamics in super fluid mixtures.

  29. Explain how new super-heavy elements are created?

  30. Assess the process of energy dissipation and Quantum tunnelling in nuclear collisions.

  31. Talk about supernova signatures on the planet Earth.

  32. Describe Nucleosynthesis and its development in laboratory.

  33. Explain how elements are formed naturally in stars?

  34. Illustrate the important fundamental nuclear data for nuclear fission and nuclear fusion.

  35. Describe Hoyle state. Explain the phenomenon of pair conversion decay.

  36. How to develop new methods for nuclear lifetimes?

  37. Measure and device suitable model for free ion hyperfine fields.

  38. What is nuclear magnetism? Measurements and modelling of magnetic moments.

  39. Explain the theory of nuclear fission.

  40. Explain the theory of nuclear fusion. Compare with the theory of sub-zeptosecond breakup reactions.

  41. Demonstrate electric monopole transitions through high precision electron spectroscopy.

  42. Describe thoroughly the dark matter experiment.

  43. What were the radio impurities that were found in particle detectors during the dark matter studies?

  44. What is a Solenogam?

  45. Demonstrate gamma ray spectroscopy via a magnetic solenoid separator.  

  46. Demonstrate electron spectroscopy.

  47. Give the measurements for high precision Electron-Gamma angular correlation.

  48. Give studies for the Proton-Gamma coincidences.

  49. Show how Electrons and X-ray emissions from nuclear decay can be used for medical isotopes.

  50. Give measurements for directional dark matter.

  51. In nuclear structure research, explain role of particle detection with exotic scintillators.

  52. What are the recent challenges in nuclear fission theory?

  53. How to create new super heavy elements?

  54. Explain Plasma-liquid interactions.

  55. How plasma nitrogen fixation at low-temperature helps in enhancement of plant growth?

  56. Hw to synthesize one-step plasma  of high surface area nanostructures efficiently?

  57. Which Plasma thrusters are used for Spacecrafts?

  58. Analyse the system calculations for hunter killer satellites.

  59. Talk about the Computer simulations of expanding plasma.

  60. Give particle simulation of dual frequency processing plasma.

  61. Show how magnetic nozzles and plasmas are generated by a remote source?

  62. How Plasma surface interactions are impacted under extreme conditions?

  63. Describe Optical quantum memory.

  64. What is meant by Quantum tunnelling in many-body systems?

  65. What are the Quantum microscopes that are used for interdisciplinary science researches?

  66. What are the quantum defects that were found in Carbon materials?

  67. Explain the phenomenon of non-equilibrium quantum condensation.  

  68. What are micro cavity exciton polaritons?

  69. Talk about Quantum tunnelling in nuclear collisions.

  70. Explain integrated quantum photonics.

  71. What is meant by Quantum squeezed states?

  72. How dual torsion pendulum can be used for quantum noise limited sensing?

  73. Show the fundamental tests of quantum mechanics with matter waves.

  74. Explain Diamond quantum analysis and communications.

  75. What are the criteria for a quantum system to be able to reach equilibrium?

  76. Explain how Laser levitation of a macroscopic mirror takes place?

  77. How to store quantum entangled states of light?

  78. Explain principle of synthetic multi-dimensional photonics.

  79. Describe the harmonic generation process for Quantum optics applications.

  80. What is the mechanism for the probabilistic quantum cloning?

  81. Illustrate an optical lattice.

  82. How to develop a photonic quantum processor?

  83. Usage of machine learning technique for beam matching.

  84. What are the multi-component quantum gases?

  85. Mention all the limits associated with ultra-cold atoms sensing.

  86. Give examples for Quantum super resolution.

  87. What are the latest accomplishments in Quantum device engineering?

  88. Testing signatures of Quantum gravity with low energy.

  89. How to explore physics with the help of neural networks?

  90. Explain Quantum communications that are space-based.

Pick one particular area of physics that interests you the most and start writing your thesis. Do take guidance from your mentors and external sources wherever and whenever needed.

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