1. 19-11-2015 Overview of Tandem Accelerator Facility and related R&D Work at NCP Ishaq Ahmad ishaq@ncp.edu.pk http://www.ncp.edu.pk/taf.php ishaq@ncp.edu.pk

2. 1.Aims & objectives 2.Overview of 5MV Pelletron Tandem Accelerator 3.Research Activities and collaboration 4.Conclusion Contents

3. Aims and Objectives of Accelerator Lab To extend state of the art ion beam facility to the international/national researchers to use the milli, micro and nanometer size beams of different ions and enhance the understanding of experimental knowledge of ion matter interaction.

4. An Overview of 5MV Pelletron Tandem Accelerator 5 MV Terminal Voltage Dual Ion Sources – SNICS ( Source of Negative Ions by Cesium Sputtering) for wide range of light and heavy ions generation – RF source for He ion generation Ions Energies – 10 MeV for Protons, 15 MeV for He++ – Useful currents for heavy ions to over 50 MeV Two beamlines - 15 degree beamline for Materials Analysis/materials modifications - 30 degree beamline for Ion Scattering/Nuclear Physics

5. An Overview of 5MV Pelletron Tandem Accelerator Spare Beamline Ports Two Beamlines

6. An Overview of 5MV Pelletron Tandem Accelerator

7. Two Ions sources

8. Control Room

9. Ion beam analysis (RBS, PIXE, NRA, ERDA, PIGE and ion channeling ) Facilitate researchers from different national Universities and institutes to analysis their samples (environment, thin film, single crystal, bulk, biological, samples) We can facilitate you to analyze your samples Because we have experts to use different Data analysis software like XRUMP, SIMNRA, GUPIX, DataFurnace to analyze samples. Publications: 17 publications in recent year (2015). IF: >30 Research Activities and Collaboration Depth Profiling 20 nm 30 nm Thin film

10. Analysis of Multilayer Thin Films Elemental composition and depth profiling of individual elements of multilayer thin films v Individual Film thickness Nature and the composition of the interfaces Thin film diffusion study Thin film Mixing impurity distribution Bulk materials elemental analysis

11. Ion Channeling Techniques Providing crystallographic information on radiation damages, crystal defects, impurity location in single crystals and strains in superlattice structures/quantum dotes. Single crystal wafers and epitaxial single crystal thin films

12. Ion Channeling Techniques Ishaq et al. Journal of Magnetism and Magnetic Materials 324 (2012) 797–801

13. Scattering cross section measurement Measurements of differential scattering cross sections of protons at MeV energies on solid targets Measurements of differential scattering cross sections of heavy ions at MeV energies on solid targets Publication: 1.Differential elastic scattering cross sections of protons from Al in the 2.4 – 4.8 MeV energy range. Nuclear Science and Techniques. Accepted 2.Experimental study of proton scattering on carbon. Nucl Instr Method B, 2011, 269: 2032- 2034 Stopping power measurement using low energy light/heavy ions Recently we started this work with the collaboration of Physics department, University of Algiers, Algeria. Research Activities and Collaboration

14. Ion beam induced phase separation/segregation of alloys/compounds Ion source as heating source Research Activities and Collaboration Ion beam induced splitting of XRD and Raman peaks in InGaN/GaN epilayer system Collaborative research work with iThemba LABS South Africa

15. Ion beam induced mass transport into substrate Collaborative research work with iThemba LABS South Africa Research Activities and Collaboration Au nanoparticles on Si substrate. Xiao-Yan Zeng et al applied physics letter 2013

16. Ion beam induced mass transport into substrate Ag-NWs on Glass substrate Ag-NWs on Si substrate

17. Phase transformation of nanowires/nanotubes/nanoparticles/thin films Collaborative research work with SINAP and University of South Africa Low energy ion implantation is matured for no of decays. After implantation need annealing. High energy ion implantation: Two effects 1.Ions implantation and 2.ion beam induced local heating Research Activities and Collaboration

18. Phase Transformation of MWCNTs by Ion Beam Irradiation

19. MWCNTs to Amorphous nanowires Ishaq et al, Materials Letters (20013)

20. Phase Transformation of BNNTs to BCNNTs by Carbon Ion Beam Irradiation Nuclear reaction analysis of BNNTs Ishaq et al, J Nanopart Res (2014)

21. Nanowelding of nanotubes/nanowires for fabrication/integration of future nanaodevices Highly conductive, tranaparent metal nanowires electrodes for different applications Surface-Enhanced Raman Spectroscopy (SERS) active substrates based on Silver nanowire networks fabricated by ion beam irradiation Collaborative research work with SINAP and University of South Africa Research Activities and Collaboration

22. Enhance electrical Conductivity The enhanced conductivity of carbon nanotube network by ion beam irradiation at high temperature Ar + H+H+ Ishaq, Yan Long et al Carbon. 2011

23. Ion Beam induced welding and their networks

24. Ishaq et al, Current Applied Physics, 2015 Enhance electrical Conductivity

25. 5  10 15 protons/cm 2 1  10 17 protons/cm 2 Phase Transformation of ZnO NWs by Ion Beam Irradiation XRD patterns of Carbon ion irradiated ZnO nanowires a) As grown ZnO nanowires, b) 1×10 12 ions cm -2, c) 1×10 14 ions cm -2, and d) 1×10 15 ions cm -2 Ishaq et al, J Nanopart Res (2013)

26. Cluster ion generation and acceleration Ion beam synthesis of nanomaterials Research Activities and Collaboration

27. National Center for Physics

29. Quaid-i-Azam University

30. Conclusion Promote international research activities. Facilitate to exchanges lab facilities Promote collaboration between research institutes Networking, closeness and personal relations are crucial to promote research activities

31. Thank you very much for your attention ?