1,040 research outputs found
Radiation-induced toxicity in prostate cancer: prediction and impact on quality of life
Radiotherapy offers the opportunity to treat prostate cancer in an effective manner, considering high tumor control and survival. The organs around the prostate receive unwanted, but unavoidable irradiation as a consequence of this treatment. Particularly the intestines and bladder can be damaged due to this radiation and may result in side effects such as incontinence, blood loss and pain. When it is clear which dose causes which side effect, this information can be used to change future treatment plans. This research has shown that dose to the pelvic floor muscles, dose to the last part of the large intestine and dose to specific parts of the bladder are predictive of the aforementioned side effects. This thesis also shows that these side effects influence a patients’ quality of life. To optimize the quality of life of a prostate cancer survivor more attention should be given to side effects that have the largest impact on quality of life. A comparative study with a group of men without prostate cancer shows that the quality of life of these patients differs slightly from this normative group of men
Beyond scratching the surface : intrinsic tribological performance of polymers
Quantifying and understanding friction and wear behaviour of any type of material remains a challenge to this day. This is also true for polymers that are used frequently in sliding applications. This thesis focuses on the development of quantitative measurement techniques that can be used to understand friction and wear of polymers. To understand the influence of material properties on friction and wear behaviour it is necessary to zoom in on the relevant processes in a sliding contact. A macroscopic contact between two surfaces typically consists of multiple contacts between roughness peaks. These micro-contacts make up the real contact area which is usually a small fraction of the apparent contact area, and which depends on the mechanical properties of both surfaces as well as on the loading conditions. The friction force measured in experiments is the product of this real contact area and an average effective shear stress. Because the real contact area is difficult to control and measure for macroscopic contacts such contacts are not very useful in separating the contributions to the friction force. In contrast, single asperity techniques offer the possibility to control independently the contact area and normal load and therefore offer a way forward to a critical interpretation of measured friction forces. In the work described in this thesis microscopic tribological single–asperity experiments are used to study structure-property relations. These single asperity experiments are performed using the Lateral Force Apparatus that was drastically modified to better suit this purpose. A new driving system was developed that allows friction measurements in which the sliding velocity may be varied across 5 orders of magnitude with accurate position control. This combination makes it possible to perform single–asperity measurements at widely differing speeds which are shown to be important for the interpretation of sliding friction on polymers. Accurate position control is shown to be crucial in developing advanced wear measurement techniques. In sliding friction distinction between the contribution of contact area and effective xi xii SUMMARY shear stress to the friction force is a key issue. Depending on mechanical properties and loading conditions, all materials exhibit creep on a characteristic time scale. In polymers creep is especially relevant since the associated timescales are relatively short. In single asperity friction the asperity radius and sliding speed set a contact time, during which the contact area may evolve by creep. It is shown that the contributions of contact area and effective shear stress can be distinguished from one another using single–asperity measurements at widely differing sliding velocities. In the study of wear the interpretation of measurements on macroscopic multi– asperity contacts also pose problems since they consist of a collection of microcontacts between deformed asperities. Since the strain at failure of a polymer is expected to be an important factor in determining the wear of polymers the unambiguous strain distribution of a single asperity contact is an advantage in the study of structure-wear relations. In this thesis a novel single–asperity technique to measure wear rate is developed. In this method the wear rate is measured in real time. The method is fast, uses very little material, and yet gives good statistics and a strong correlation with macroscopically measured wear rates. In a study on PE it is found that the wear rate is related to the molecular weight. Quantitative single–asperity measurements are a critical step in understanding structure-tribology relations. While macroscopic tribological experiments can only scratch the surface of structure-tribology relations, single–asperity techniques probe the material properties lying underneath
Bright source of spectrally uncorrelated polarization-entangled photons with nearly single-mode emission
We present results of a bright polarization-entangled photon source operating
at 1552 nm via type-II collinear degenerate spontaneous parametric
down-conversion in a periodically poled potassium titanyl phosphate crystal. We
report a conservative inferred pair generation rate of 123,000 pairs/s/mW into
collection modes. Minimization of spectral and spatial entanglement was
achieved by group velocity matching the pump, signal and idler modes and
through properly focusing the pump beam. By utilizing a pair of calcite beam
displacers, we are able to overlap photons from adjacent down-conversion
processes to obtain polarization-entanglement visibility of 94.7 +/- 1.1% with
accidentals subtracted.Comment: 4 pages, 7 color figures. Revised manuscript includes the following
changes: corrected pair generation rate from 44,000/s/mW pump to 123,000/s/mW
pump; replaced Fig. 1b to enhance clarity; minor alterations to the title,
abstract and introduction; grammatical correction
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