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Precise tune determination and split beam emittance reconstruction at the CERN PS synchrotron
(2023)
In accelerator physics, the need to improve the performance and better control the operating point of an accelerator has become, year after year, an increasingly important need in order to achieve higher energies and brightness, as well as point-like particle beams. If this involves increasingly advanced technological developments (in terms, for example, of materials for more intense superconducting magnets), it can not take place in the absence of targeted studies of linear and non-linear beam dynamics. In the context of this Ph.D. thesis in physics, linear and non-linear dynamics of charged particles in circular accelerators is the topic that will be discussed and treated in detail. In particular, the presentation and discussion of the results will be divided in two main topics: the need to know the physical properties of a proton beam; and the development of innovative methods to determine and study the accelerator’s working point. With regard to the first topic, an innovative procedure will be presented to determine the transverse size of the PS beam in the beam extraction phase. Among the different ways the extraction occurs at the PS, the analysed one is based on the transverse splitting of the beam by means of non-linear fields. Thus, the knowledge of the transverse beam size is not trivial since resonant linear and non-linear beam structures (namely, core and islands) arise and, for each of them, the beam size has to be quantified. This parameter is crucial for two main reasons: the accelerator that will receive the beam exiting the upstream accelerator may have restrictions (physical or magnetic) that involve a partial or total loss of the incoming beam; and any experiments located downstream of the considered accelerator may need a beam with a transversal size as constant as possible; consequently, its monitoring and control are essential. The second topic concerns the accurate determination of the working point of an accelerator, defined as the number of transverse oscillations the particle beam travels per unit of accelerator circumference, both horizontally and vertically. This quantity is called horizontal and vertical tune, respectively. Their knowledge is also crucial to understand whether the beam will be stable or unstable. In fact, not all tune values are acceptable, as there are particular values that bring the beam into resonance. In this configuration, the amplitude of the transverse oscillations of the particles increases in an uncontrolled manner and leads to the loss of all or part of the beam. Note that, in particular operating conditions, the resonant conditions are sought and desired to model, in a suitable way, the transversal shape of the beam, such as the above mentioned PS extraction scheme. It is even clearer how much the determination of the machine working point is essential to determine the operating conditions of an accelerator. In this context, several methods (also taken from the field of applied mathematics) to calculate the tune will be demonstrated and tested numerically on different types of synthetic signals. At the end of this description, the use of experimental data will allow to obtain the benchmark of a new method for the direct calculation of some characteristic quantities of non-linear beam dynamics (namely, the amplitude detuning, i.e. the variation of tune as a function of intensity of the perturbation provided to the beam.
In this retrospective study, case records of clinical forensic examinations and respective investigation records of the police and the public prosecutor’s (state attorney) office along with the resulting verdicts were examined in terms of type and site of injury found and extent of agreement or discrepancy between the story given by the accused party and the medical conclusions drawn from the injury pattern. Particular attention was focussed on the relevance of the expert opinion for the legal assessment through case-specific analysis of the respective verdicts. A total of 118 cases originating from the scope of the Institute of Forensic Medicine, Goethe-University Frankfurt/Main (2002 – 2005) were examined. These included bodily injury, child abuse, sexual compulsion, self-mutilation and injury patterns of individuals under suspicion of attempted or completed manslaughter/homicide. As compared to former studies, the results of this analysis were additionally correlated with the investigation records of the public prosecutor’s office (state attorney) to elucidate the importance of the forensic findings for police investigation and legal evaluation. The forensic examination involved 19 accused and 99 victims. As for the gender distribution of the victims, 51 females and 48 males were encountered. Slight female preponderance was seen in cases of sexual compulsion. The group of accused individuals consisted of 16 males and 3 females. Injuries due to blunt force impact, in particular hematomas involving skull and trunk, dominated as diagnostic findings in cases of bodily injury, sexual offenses and child abuse. In cases with suspected self-mutilation and in examinations of accused perpetrators of manslaughter/homicide scratches and lacerations prevailed. Correlating injury patterns and police inquiries, conclusions drawn from medical findings and results of police investigations were in good agreement in 46 % of the cases, but showed major discrepancies in another 25 %. In the remaining 29 % of the cases, the injury pattern did not allow for a definite expert opinion on the mode of infliction. Nevertheless, a detailed documentation of the medical findings proved to be of substantial value for police investigations. 39 % of the cases resulted in a final verdict, whilst in 59 % of the cases the charge was dismissed. Especially in the ladder forensic expert opinion was of considerable importance, since forensic assessment of injuries could either not be attributed to a certain perpetrator or contributed to the exoneration of the accused. In 2 % the judicial assessment was not available. In 82 % of the cases of child abuse the proceedings were stopped, e.g. since maltreatment could not be assigned to a particular perpetrator. In these cases, it became obvious, that forensic examination and assessment alone does not suffice, but has to be embedded in police investigations to achieve optimal results. Medical conclusions by forensic experts were – almost without any exception – considered in legal assessment and differentiatedly taken into account when weighing the sentence, thus reflecting the objectivity and neutrality of the medical assessment. In synopsis, albeit evidential value of forensic examination is assessed to be high optimal clarification of a case requires integration into the complete spectrum of investigations performed in a case.
Cancer cells, including leukemic cells, can react to therapeutic treatment by altering their metabolic phenotype (“metabolic reprogramming”) to keep their accelerated proliferative state, eventually becoming resistant to the treatment. There is an increasing amount of evidence indicating that metabolic reprogramming is one of the key mechanisms of acquisition of drug resistance by cancer cells. In agreement, several metabolic studies targeting leukaemia and specifically acute myeloid leukaemia (AML) and chronic myeloid leukaemia (CML), have been conducted over the last decades. However, there is still a lack of understanding the metabolic features of both AML and CML leukaemia specially in the acquisition of drug resistance, that is needed for unveiling novel and effective treatments for resistant and non-resistant patients. Therefore, the main objective of this thesis was to investigate the rewiring of cell metabolism occurring in the process of acquisition of resistance to conventional therapeutic treatments in AML and CML malignancies. Next, by revealing this metabolic rewiring, we intended to highlight potential metabolic and non-metabolic targets that could be exploited to overcome resistance to treatments. To this end, we have performed a comprehensive and comparative multi-OMIC study to analyse the links between the metabolic reprogramming and the resistance acquisition of THP-1 and HL-60 AML cell models sensitive or resistant to cytarabine (AraC) and doxorubicin (Dox), and of KU812 CML cell model sensitive or resistant to imatinib, all under normoxic (21% O2) and hypoxic (1% O2) conditions. The results of this thesis are divided into two chapters. On the one hand, in Chapter 1, the multi-OMIC study performed in AML parental and resistant cells unveiled that the acquisition of AraC resistance causes the reprogramming of the glucose metabolism of THP-1 and HL-60 cells by increasing the glycolytic flux whereas it is not associated with an alteration in the mitochondrial respiration. Moreover, our results also exhibited a possible disfunction of ETC complex I as well as alterations in glutamine and serine-glycine-1C metabolism in AML cells that display a more active mitochondrial metabolism. Moreover, we have also identified that the acquisition of Dox resistance causes alterations in the glucose and amino acid metabolism. Importantly, we have observed an important loss of mitochondrial respiration capacity of AML cells resistant to Dox chemotherapeutic drug, which constitutes a potential metabolic vulnerability that can be exploited for the treatment of AML patients resistant to Dox. On the other hand, in Chapter 2 is shown that the acquisition of imatinib resistance causes the reprogramming of glucose metabolism by enhancing the glycolytic flux, PPP, and glycogen metabolism, thus highlighting these metabolic pathways as potential metabolic weaknesses of KU812 cells resistant to imatinib. Moreover, we have observed a high metabolic plasticity of KU812 cells resistant to imatinib which includes the orchestration of many metabolic routes associated with the amino acid metabolism. Importantly, the CML multi-OMIC study has also unveiled an enhanced mitochondrial respiration capacity, which constitutes another potential vulnerability that can be exploited to overcome imatinib resistance. Finally, both AML and CML multi-OMIC studies have allowed us to propose and/or validate different metabolic and non-metabolic targets. In this regard, in this thesis we have identified and validated a battery of single-hit inhibitions that were able to reduce the cell viability of both parental and resistant AML and CML cells. Finally, we have confirmed that the repurposing of Dox chemotherapeutic drug counteracts the imatinib resistance in the KU812 cells resistant to imatinib.
1. A preliminary revision of the genus Muntiacus in the Indo-Australian Archipelago Introduction Sexual differences Sexual cycle Characters of age in the dentitions Age differences in skull measurements Age differences of antlers Age differences in coat Systematic part 2. Revision of the genus Arctogalidia in the Indo-Australian Archipelago. Introduction Key to the greges in the genus Arctogalidia Key to the subspecies of the grex A. t. trivirgata Gregal form A. t. trilineata