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- Raja Aamir, Alexander I. Chernoglazov, +35 authors Ken Hodge
- 2014

Spectral molecular imaging is a new imaging technique able to discriminate and quantify different components of tissue simultaneously at high spatial and high energy resolution. Our MARS scanner is… (More)

K-edge imaging is commonly used for viewing contrast pharmaceuticals in a variety of multi-energy x-ray imaging techniques, ranging from dual-energy and spectral computed tomography to fluoroscopy.… (More)

- Christopher J. Bateman, Jamie McMahon, +5 authors Peter F. Renaud
- 28th International Conference on Image and Vision…
- 2013

A segmentation algorithm that assists material analysis in multi-energy computed tomography is presented. Segmentation is typically used in conjunction with quantitative material analysis algorithms… (More)

- Christopher J. Bateman, Donald William Knight, +28 authors Philip H Butler
- 2018

This paper outlines image domain material decomposition algorithms that have been routinely used in MARS spectral CT systems. These algorithms (known collectively as MARS-MD) are based on a pragmatic… (More)

- Keerthi Rajendran, Michael F. Walsh, +28 authors Mark Billinghurst
- 2013

This paper discusses methods for reducing beam hardening effects using spectral data for biomaterial applications. A small-animal spectral scanner operating in the diagnostic energy range was used.… (More)

2000) Abstract. The stabilized Poincare-Heisenberg algebra (SPHA) is the Lie algebra of quantum relativistic kinematics generated by fifteen generators. It is obtained from imposing stability… (More)

- Peter F. Renaud
- 2001

Abstract A matrix trace inequality, which can be regarded as a non-commutative version of Gruss inequality is derived. The proof easily generalises to the more general case of bounded linear… (More)

This paper challenges some of the common assumptions underlying the mathematics used to describe the physical world. We start by reviewing many of the assumptions underlying the concepts of real,… (More)

We show that the Lorentz force law, F^L_1=q_1(E+v_1xB) being the charge on particle 1 interacting with the electromagnetic fields due to all other particles, can be written in a pure field form… (More)

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