Citations
All users of CTLab resources benefit from many years of investment, research, and development conducted within the Research School of Physics at ANU.
As a condition of access to CTLab resources at non-commercial rates, users are required to:
1. Notify us of any resulting publications.
2. Acknowledge Microscopy Australia.
3. Cite the papers listed below, as appropriate to their work. We also strongly encourage users to include relevant CTLab colleagues as co-authors on any publications. We're happy to advise on who the key contributors are.
CTLab depends upon acknowledgements and citations for the metrics required to qualify for continued funding. By acknowledging us appropriately, you're helping us ensure the future of accessible, cutting-edge CT resources at this national facility.
Examples
Example citation text for the experimental section of publications:
*Sample* was scanned at the 'National Laboratory for X-ray Micro Computed Tomography (CTLab)' based at the Australian National University (ANU), using a HeliScan MicroCT system with an optimised space-filling trajectory(1) to yield sharp images(2),(3) at a resolution of *insert value* μm.
1. Kingston A, Myers G, Latham S, Recur B, H. Li, Sheppard A
Space-Filling X-Ray Source Trajectories for Efficient Scanning in Large-Angle Cone-Beam Computed Tomography IEEE Transactions on Computational Imaging, vol. 4, no. 3, pp. 447-458, Sept. 2018 (2008) c534-C548
2. Myers G, Kingston A, Latham S, Recur B, Li T, Turner M, Beeching L,Sheppard A
Rapidly converging multigrid reconstruction of cone-beam tomographic data
Developments in X-Ray Tomography X, SPIE, Oct. 2016, pp. 59–65
3. Myers G, Kingston A, Varslot T, Sheppard A
Extending reference scan drift correction to high-magnification high-cone-angle tomography
Optics Letters 36, 24(2011) 4809-4811
Example for the Acknowledgments section:
The authors acknowledge the facilities and the scientific and technical assistance of Microscopy Australia at CTLab, Australian National University; a facility funded in part by the University, and State and Federal Governments.
Key papers
Optimised CT scanning with a space-filling trajectory
Kingston A, Myers G, Latham S, B. Recur, H.Li, Sheppard A
Space-Filling X-Ray Source Trajectories for Efficient Scanning in Large-Angle Cone-Beam Computed Tomography
IEEE Transactions on Computational Imaging, vol. 4, no. 3, pp. 447-458, Sept. 2018.
Sharp images from CT scanning
Myers G, Kingston A, Latham S, Recur B, Li T., Turner M, Beeching L, Sheppard A
Rapidly converging multigrid reconstruction of cone-beam tomographic data
Developments in X-Ray Tomography X, SPIE, Oct. 2016, pp. 59–65
Kingston A, Sakellariou A, Varslot T, Myers G, Sheppard A
Reliable automatic alignment of tomographic projection data by passive auto-focus
Medical Physics 38, 9(2011) 4934-4945
Myers G, Kingston A, Varslot T, Sheppard A
Extending reference scan drift correction to high-magnification high-cone-angle tomography
Optics Letters 36, 24(2011) 4809-4811
High resolution Helical CT scanning
Varslot T, Kingston A, Myers G, Sheppard A
High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data
Medical Physics 38, 10(2011) 5459-5476
Registration of multiple datasets
Latham S, Varslot T, Sheppard A
Automated registration for augmenting micro-CT 3D images
Computational Techniques and Applications Conference (CTAC 2008) (2008) c534-C548
Latham S, Varslot T, Sheppard A
Image registration: Enhancing and Calibrating X-ray Micro-CT Imaging
International Symposium of the Society of Core Analysts 2008 (2008) 12
Dynamic tomography
Myers G, Kingston A, Varslot T, Turner M, Sheppard A
Dynamic tomography with a priori information
Applied Optics 50, 20(2011) 3685-3690
Myers G, Geleta M, Kingston A, Recur B, Sheppard A
Bayesian approach to time-resolved tomography
Optics Express 23, 15(2015) 20062-20074
Drishti
Limaye A
Drishti: a volume exploration and presentation tool
Proc. SPIE, Developments in X-Ray Tomography VIII 8506 (2012)