Your search keyword '"Cassidy, M. J."' showing total 6 results

1. Quantum field theory and acausal spacetimes

Author

Cassidy, M. J.

Subjects

520

Abstract

This thesis is concerned with various problems that arise when one attempts to quantise fields on spacetimes which contain regions of closed time-like curves (CTCs). Chapter 1 presents a review of some of the major classical and quantum difficulties encountered by various authors investigating acausal spacetimes until 1993. In chapter 2, a number of more recent proposals that have been put forward in an attempt to construct a consistent dynamics are considered. Particular consideration is given to the density matrix proposal for Deutsch and Politzer, which is ultimately shown to give a nonlinear evolution through the acausal region. This work has been published in Phys. Rev. D 52, 5676 (1995). The chapter concludes with a discussion of the Euclidean approach, which is adopted by this author for much of the remainder of the thesis. It is argued that the inevitable loss of quantum coherence is physically preferable to the nonlinear evolution encountered in the other proposals. Chapter 3 is concerned with the effective action for matter fields defined on acausal spacetimes, in which an expression is derived for the 1 loop effective action for fields for arbitrary mass and spin on Euclidean spaces which have acausal analytic continuations. I will show that in general, after one has analytically continued back to the acausal section, the effective action diverges to minus affinity at each of the nth polarised hypersurfaces of the spacetime with a structure governed by a de Witt-Schwinger type expansion. In particular, I will show that even if →T_μνπ remains finite at the Cauchy horizon, the effective action will still diverge there. This work has been published in Classical and Quantum Gravity 14, 3031 (1997). In chapter 4 I attempt to give a sensible interpretation to Euclidean path integrals in the presence of causality violations, which was work carried out in collaboration with S.W. Hawking. If the action always diverges to minus infinity, then at first sight it seems as if any Euclidean path integrals will be completely ill defined. However, I will argue that if one focuses on the density of states, one can obtain physically reasonable results. Ultimately, I will derive an expression for the effective action of a boosted scalar field configuration in the product of three dimensional de Sitter space and S¹, and I consider the number of states with a fixed linear momentum around the S¹ as the particles are given more and more boost momentum. I will show that at the critical point when the spacetime is about to develop closed timelike curves, the number of states tends to zero. This suggest that quantum mechanics naturally enforces the Chronology Protection Conjecture by superselecting the causality violating field configurations from the quantum mechanical phase space. This work has been accepted for publication in Phys. Rev. D. Finally, in chapter 5 I consider what happens when one includes the effects of back reaction in a spacetime containing CTCs. Misner space is considered as an axisymmetric Bianchi I universe and it is assumed that near the horizon, the periodic identification in the x direction provides the dominant contribution to the energy-momentum tensor. I will show that, as the horizon is approached, any small perturbation grows until a singularity forms in a finite proper time, which therefore lends further support to the Chronology Protection Conjecture. This work has been submitted for publication to Classical and Quantum Gravity and is the subject of DAMTP preprint R/98/01.

Published

1998

2. Probabilistic identification of soil stratification

Author

Li, J., Cassidy, M. J., Huang, Jinsong, Zhang, Li Min, Kelly, Richard B., Li, J., Cassidy, M. J., Huang, Jinsong, Zhang, Li Min, and Kelly, Richard B.

Abstract

Identification of soil stratification is vital to geotechnical structural design and construction where the soil layer, soil type and properties are necessary inputs. Although methods are available for classifying the soil profiling using measured cone penetration test (CPT) data, the identification of soil stratification at unsampled locations is still difficult due to significant variability of natural soil. The identification is further complicated by the considerable uncertainties in the CPT measurements and soil classification methods. This study aims to develop a probabilistic method to predict soil stratification at unsampled locations by explicitly filtering the uncertainties in soil classification systems. An established Kriging interpolation technique is used to estimate the CPT parameters which are further interpreted to identify the soil stratification. Equations are derived to quantify the degree of uncertainties reduced by this method. The approaches are illustrated using a database of 26 CPT tests recently sourced from a dike near Ballina, Australia. Results show that the majority of the uncertainties in the soil parameters are screened by a soil classification index. The remaining uncertainties are further filtered by the soil classification systems. A clear stratification with a high degree of confidence is obtained in both horizontal plane and vertical unsampled locations, which shows excellent agreement with the existing CPT tests. This study provides a methodology to clearly identify the soil strata and reduce the uncertainties in prediction of design properties, paving the way for a more cost-effective geotechnical design.

Published

2016

3. Advancing Australia's facilities for physical modelling in geotechnics

Author

Cassidy, M J, Gaudin, C, Bates, L, Indraratna, B, Nimbalkar, S, O'Loughlin, C D, White, D J, Sloan, S W, Cassidy, M J, Gaudin, C, Bates, L, Indraratna, B, Nimbalkar, S, O'Loughlin, C D, White, D J, and Sloan, S W

Abstract

This paper presents details of the advancements of the Australian Research Council Centre of Excellence for Geotechnical Science and Engineering to the apparatus, facilities and methods for physical modelling in geotechnics. This advancement includes (i) the launch of a National Geotechnical Centrifuge Facility with a new 10 m diameter fixed beam centrifuge that will be capable of spinning 2.4 tonnes of soil at 100 gravities, (ii) a new mobile soft soil in situ testing laboratory, (iii) a new national facility for the cyclic testing of high-speed rail and (iv) three recirculating flumes, called O-tubes, which are presented in another paper of this special issue. This paper provides an overview of this new equipment and the aims of the research that it will underpin. The equipment will provide enhanced possibilities for Australia to conduct project specific testing for future energy and transportation infrastructure developments, nationally and internationally.

Published

2014

4. Proactive detection of high collision concentration locations on highways

Author

Cassidy, M J, Skabardonis, A, Chung, Koohong, Jang, Kitae, Madanat, Samer, Washington, Simon, Cassidy, M J, Skabardonis, A, Chung, Koohong, Jang, Kitae, Madanat, Samer, and Washington, Simon

Abstract

In previous research (Chung et al., 2009), the potential of the continuous risk profile (CRP) to proactively detect the systematic deterioration of freeway safety levels was presented. In this paper, this potential is investigated further, and an algorithm is proposed for proactively detecting sites where the collision rate is not sufficiently high to be classified as a high collision concentration location but where a systematic deterioration of safety level is observed. The approach proposed compares the weighted CRP across different years and uses the cumulative sum (CUSUM) algorithm to detect the sites where changes in collision rate are observed. The CRPs of the detected sites are then compared for reproducibility. When high reproducibility is observed, a growth factor is used for sequential hypothesis testing to determine if the collision profiles are increasing over time. Findings from applying the proposed method using empirical data are documented in the paper together with a detailed description of the method.

Published

2011

5. Causes And Effects Of Phase Transitions In Highway Traffic

Author

Daganzo, C. F., Daganzo, C. F., Cassidy, M. J., Bertini, R. L., Daganzo, C. F., Daganzo, C. F., Cassidy, M. J., and Bertini, R. L.

Abstract

It is shown that all the phase transitions in and out of freely flowing traffic reported earlier for a German site could be caused by bottlenecks, as are all the transitions observed at two other sites examined here. Furthermore, all the evidence indicates that bottlenecks cause these transitions in a predictable way, and no evidence is found that stoppages (jams) appear spontaneously in free flow traffic for no apparent reason. The most salient phenomena observed at all locations are explained in terms of a simple theory specific to traffic.

Published

1997

6. Nonlinearity in Quantum Theory and Closed Timelike Curves

Author

Cassidy, M. J. and Cassidy, M. J.

Abstract

We examine consequences of the density matrix approach to quantum theory in the context of a model spacetime containing closed timelike curves and find that in general, an initially pure state will evolve in a nonlinear way to a mixed quantum state. CPT invariance and the implications of this nonlinearity for the statistical interpretation of quantum theory are discussed., Comment: 17 pages plain TeX, DAMTP R/94/34

Published

1994