Matching Items (11)
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- All Subjects: Materials Science
- All Subjects: Social Research
- Genre: Masters Thesis
- Creators: Wang, Liping
Description
This project seeks to explore how organizations work toward refugee and immigrant integration through forming different types of coalitions and strategic networks. Semi-structured interviews were conducted to identify when coalitions emerge between refugee organizations and immigrant rights groups in order to examine their development, from how the coalitions broadly conceive of refugee and immigrant rights, to how they organize resources and information sharing, service provision, policy advocacy, and policy implementation. The project is guided by the question: What explains the formation of coalitions that advocate for both immigrant rights and refugee rights? Through examining the formation and development of these coalitions, this thesis engages at the intersections of immigration federalism, refugee studies and human rights scholarship to reveal deeper complexities in the politics of immigrant integration. The project sharpens these three scholarly intersections by three multi-level jurisdictions – California and Arizona in the United States and Athens in Greece – and by employing comparative analysis to unpack how national governments and federalism dynamics shape coalition building around immigrant integration.
ContributorsAmoroso-Pohl, Melanie Hope (Author) / Colbern, Allan (Thesis advisor) / Keahey, Jennifer (Committee member) / Walker, Shawn (Committee member) / Arizona State University (Publisher)
Created2019
Description
The thesis for this study is that structural racism within the U.S. criminal system causes Black mothers to assume the emotional work of caring for incarcerated sons. This project was designed using an interpretive approach that employed a combination of qualitative and auto-ethnographic methods, drawing on grounded theory principle. Six interviews were conducted with mothers in order to gain in-depth insight into their lived experiences. An auto-ethnographic method was used to analyze the author’s own personal experiences as a family member of the incarcerated in dialogue with the experiences of the broader research population. Studies on the key finding of the psycho-social impacts on mothers with incarcerated sons have explored the relationship between the mental depression of mothers and their son’s incarceration. They have found that financial challenges, dwindling social connections, lousy parenting evaluations, as well as the burden of care of the grandchildren of the incarcerated sons are some of the mediating factors of this relationship. A second key finding also showed that incarceration have had social-economic effects on the prisoner’s families. These families experience extreme financial hardship as a result of incarcerated loved ones. Another finding showed the unique coping strategies for mothers included assuming care taking responsibility, maintaining family relationships, and budget control. Finally, this study found that there are challenges to re-entry experienced by mothers with incarcerated sons when their released. Research findings and original contribution to scholarly knowledge uncovered that Black mothers of the incarcerated in addition to working the Second Shift, are experiencing the phenomena of what is coined to be the “Third Shift.”
ContributorsWhite, LaTonya C (Author) / Keahey, Jennifer (Thesis advisor) / Colbern, Allan (Committee member) / Murphy-Erfani, Julie (Committee member) / Arizona State University (Publisher)
Created2019
Description
ABSTRACT
Elite experience and careers in judged female sports complicate the binary categories of retirement while they are especially exposed to cultures of abuse, pressure and subjectivity. This thesis is comprised of multiple voices and experiences from the elite female athletic perspective, including my autoethnographic narrative. Highlighted and discussed are the topics of sexual assault and abuse, family pressure on children to do and excel at sport, the National Team experience representing the United States and subjected bodies and judging. It is an aim of this thesis to culminate all of those factors in the final chapter and hold that the experience and the cultures of athletic identity within synchronized swimming, gymnastics and figure skating not only cannot be explained by current research on athletic identity through retirement but have the capability to retire undeveloped young women by overdeveloped athletic identities. Through a sampling of voices and experiences across different female judged sports, over three decades, the reader will observe similarities that cause these sports to have a culture of solidarity through the aspects they hold in common with each other. The narrative highlights pivotal moments in the lives of the elite female athlete within these sports, which add to the calculation of their athletic identities and the lack of their personal identities. Through reflection and analyses of not only my story, but the interviewees from my original research and that of Joan Ryan’s as well, I aim to voice a mutual experience of elite athletes. Consisting of multiple factors throughout many years we will see through my autoethnography, paralleling with other voices and experiences, how it all intersects and contributes to this: Who am I now and where do I go from here?
Elite experience and careers in judged female sports complicate the binary categories of retirement while they are especially exposed to cultures of abuse, pressure and subjectivity. This thesis is comprised of multiple voices and experiences from the elite female athletic perspective, including my autoethnographic narrative. Highlighted and discussed are the topics of sexual assault and abuse, family pressure on children to do and excel at sport, the National Team experience representing the United States and subjected bodies and judging. It is an aim of this thesis to culminate all of those factors in the final chapter and hold that the experience and the cultures of athletic identity within synchronized swimming, gymnastics and figure skating not only cannot be explained by current research on athletic identity through retirement but have the capability to retire undeveloped young women by overdeveloped athletic identities. Through a sampling of voices and experiences across different female judged sports, over three decades, the reader will observe similarities that cause these sports to have a culture of solidarity through the aspects they hold in common with each other. The narrative highlights pivotal moments in the lives of the elite female athlete within these sports, which add to the calculation of their athletic identities and the lack of their personal identities. Through reflection and analyses of not only my story, but the interviewees from my original research and that of Joan Ryan’s as well, I aim to voice a mutual experience of elite athletes. Consisting of multiple factors throughout many years we will see through my autoethnography, paralleling with other voices and experiences, how it all intersects and contributes to this: Who am I now and where do I go from here?
ContributorsHaylor, Alyson (Author) / Colbern, Allan (Thesis advisor) / Mean, Lindsey (Committee member) / Kassing, Jeffrey (Committee member) / Arizona State University (Publisher)
Created2019
Description
Solar energy is leading in renewable energy sources and the aspects surrounding the efforts to harvest light are gaining importance. One such aspect is increasing the light absorption, where heliotropism comes into play. Heliotropism, the ability to track the sun across the sky, can be integrated with solar cells for more efficient photon collection and other optoelectronic systems. Inspired by plants, which optimize incident sunlight in nature, several researchers have made artificial heliotropic and phototropic systems. This project aims to design, synthesize and characterize a material system and evaluate its application in a phototropic system. A gold nanoparticle (Au NP) incorporated poly(N-isopropylacrylamide) (PNIPAAm) hydrogel was synthesized as a photo-thermo-responsive material in our phototropic system. The Au NPs generate heat from the incident via plasmonic resonance to induce a volume phase change of the thermo-responsive hydrogel PNIPAAm. PNIPAAm shrinks or swells at temperature above or below 32°C. Upon irradiation, the Au NP-PNIPAAm micropillar actuates, specifically bending toward the incident light and precisely following the varying incident angle.
Swelling ratio tests, bending angle tests with a static incident light and bending tests with varying angles were carried out on hydrogel samples with varying Au NP concentrations. Swelling ratios ranging from 1.45 to 2.9 were recorded for pure hydrogel samples and samples with very low Au NP concentrations. Swelling ratios of 2.41 and 3.37 were calculated for samples with low and high concentrations of Au NPs, respectively. A bending of up to 88° was observed in Au NP-hydrogel pillars with a low Au NP concentration with a 90° incident angle. The light tracking performance was assessed by the slope of the pillar Bending angle (response angle) vs. Incident light angle plot. A slope of 1 indicates ideal tracking with top of the pillar being normal to the incident light, maximizing the photon absorption. Slopes of 0.82 and 0.56 were observed for the low and high Au NP concentration samples. The rapid and precise incident light tracking of our system has shown the promise in phototropic applications.
Swelling ratio tests, bending angle tests with a static incident light and bending tests with varying angles were carried out on hydrogel samples with varying Au NP concentrations. Swelling ratios ranging from 1.45 to 2.9 were recorded for pure hydrogel samples and samples with very low Au NP concentrations. Swelling ratios of 2.41 and 3.37 were calculated for samples with low and high concentrations of Au NPs, respectively. A bending of up to 88° was observed in Au NP-hydrogel pillars with a low Au NP concentration with a 90° incident angle. The light tracking performance was assessed by the slope of the pillar Bending angle (response angle) vs. Incident light angle plot. A slope of 1 indicates ideal tracking with top of the pillar being normal to the incident light, maximizing the photon absorption. Slopes of 0.82 and 0.56 were observed for the low and high Au NP concentration samples. The rapid and precise incident light tracking of our system has shown the promise in phototropic applications.
ContributorsGopalakrishna, Hamsini (Author) / He, Ximin (Thesis advisor) / Holman, Zachary C (Committee member) / Wang, Liping (Committee member) / Arizona State University (Publisher)
Created2016
Description
Mechanical behavior of metallic thin films at room temperature (RT) is relatively well characterized. However, measuring the high temperature mechanical properties of thin films poses several challenges. These include ensuring uniformity in sample temperature and minimizing temporal fluctuations due to ambient heat loss, in addition to difficulties involved in mechanical testing of microscale samples. To address these issues, we designed and analyzed a MEMS-based high temperature tensile testing stage made from single crystal silicon. The freestanding thin film specimens were co-fabricated with the stage to ensure uniaxial loading. Multi-physics simulations of Joule heating, incorporating both radiation and convection heat transfer, were carried out using COMSOL to map the temperature distribution across the stage and the specimen. The simulations were validated using temperature measurements from a thermoreflectance microscope.
ContributorsEswarappa Prameela, Suhas (Author) / Rajagopalan, Jagannathan (Thesis advisor) / Wang, Liping (Committee member) / Jiao, Yang (Committee member) / Arizona State University (Publisher)
Created2016
Description
Material extrusion based rapid prototyping systems have been used to produceprototypes for several years. They have been quite important in the additive manufacturing field, and have gained popularity in research, development and manufacturing in a wide field of applications. There has been a lot of interest in using these technologies to produce end use parts, and Fused Deposition Modeling (FDM) has gained traction in leading the transition of rapid prototyping technologies to rapid manufacturing. But parts built with the FDM process exhibit property anisotropy. Many studies have been conducted into process optimization, material properties and even post processing of parts, but were unable to solve the strength anisotropy issue. To address this, an optical heating system has been proposed to achieve localized heating of the pre- deposition surface prior to material deposition over the heated region. This occurs in situ within the build process, and aims to increase the interface temperature to above glass transition (Tg), to trigger an increase in polymer chain diffusion, and in extension, increase the strength of the part. An increase in flexural strength by 95% at the layer interface has been observed when the optical heating method was implemented, thereby improving property isotropy of the FDM part. This approach can be designed to perform real time control of inter-filament and interlayer temperatures across the build volume of a part, and can be tuned to achieve required mechanical properties.
ContributorsKurapatti Ravi, Abinesh (Author) / Hao Hsu, Keng (Thesis advisor) / Hildreth, Owen (Committee member) / Wang, Liping (Committee member) / Arizona State University (Publisher)
Created2016
Description
A new class of layered materials called the transition metal trichalcogenides (TMTCs) exhibit strong anisotropic properties due to their quasi-1D nature. These 2D materials are composed of chain-like structures which are weakly bound to form planar sheets with highly directional properties. The vibrational properties of three materials from the TMTC family, specifically TiS3, ZrS3, and HfS3, are relatively unknown and studies performed in this work elucidates the origin of their Raman characteristics. The crystals were synthesized through chemical vapor transport prior to mechanical exfoliation onto Si/SiO¬2 substrates. XRD, AFM, and Raman spectroscopy were used to determine the crystallinity, thickness, and chemical signature of the exfoliated crystals. Vibrational modes and anisotropic polarization are investigated through density functional theory calculations and angle-resolved Raman spectroscopy. Particular Raman modes are explored in order to correlate select peaks to the b-axis crystalline direction. Mode III vibrations for TiS3, ZrS3, and HfS3 are shared between each material and serves as a unique identifier of the crystalline orientation in MX3 materials. Similar angle-resolved Raman studies were conducted on the novel Nb0.5Ti0.5S3 alloy material grown through chemical vapor transport. Results show that the anisotropy direction is more difficult to determine due to the randomization of quasi-1D chains caused by defects that are common in 2D alloys. This work provides a fundamental understanding of the vibrational properties of various TMTC materials which is needed to realize applications in direction dependent polarization and linear dichroism.
ContributorsKong, Wilson (Author) / Tongay, Sefaattin (Thesis advisor) / Wang, Liping (Committee member) / Green, Matthew (Committee member) / Arizona State University (Publisher)
Created2017
Description
This thesis explores the possibility of fabricating superconducting tunnel junctions (STJ) using double angle evaporation using an E-beam system. The traditional method of making STJs use a shadow mask to deposit two films requires the breaking of the vacuum of the main chamber. This technique has given bad results and proven to be a tedious process. To improve on this technique, the E-beam system was modified by adding a load lock and transfer line to perform the multi-angle deposition and in situ oxidation in the load lock without breaking the vacuum of the main chamber. Bilayer photolithography process was used to prepare a pattern for double angle deposition for the STJ. The overlap length could be easily controlled by varying the deposition angles. The low-temperature resistivity measurement and scanning electron microscope (SEM) characterization showed that the deposited films were good. However, I-V measurement for tunnel junction did not give expected results for the quality of the fabricated STJs. The main objective of modifying the E-beam system for multiple angle deposition was achieved. It can be used for any application that requires angular deposition. The motivation for the project was to set up a system that can fabricate a device that can be used as a phonon spectrometer for phononic crystals. Future work will include improving the quality of the STJ and fabricating an STJs on both sides of a silicon substrate using a 4-angle deposition.
ContributorsRana, Ashish (Author) / Wang, Robert Y (Thesis advisor) / Newman, Nathan (Committee member) / Wang, Liping (Committee member) / Arizona State University (Publisher)
Created2019
Description
The increasing job opportunities abroad as spa therapists attract significant numbers of young Indonesian women. Although the placement process is conducted by licensed recruitment agents and supervised by government officials, migrant workers might be at high risk of experiencing work exploitation and physical or sexual abuse. To investigate the phenomenon of documented, yet still vulnerable, female migrant workers, this research conducts interviews with several former spa therapists who were working in Malaysia and some civil servants. This study highlights that individual or personal resistances could be a collective political struggles. Specifically, this research connects individual experiences with the bigger picture of social, economic, and political condition, which, together, constitutes a gender-based labor migration system. To do this, the research employs qualitative-interpretive research methods through discourse analysis and in-depth and open-ended interviews. It also employs an intersectional feminist approach to data analysis to reveal how Indonesian female migrant workers are marginalized and oppressed and the power dynamics at play.
ContributorsNabila, Asma Zahratun (Author) / Colbern, Allan (Thesis advisor) / Behl, Natasha (Thesis advisor) / Goksel, Nisa (Committee member) / Arizona State University (Publisher)
Created2021
Description
This paper assesses the obstacles faced by immigrant aid groups on the U.S./ Mexico border and the resiliency used to challenge these obstacles. The borderlands of the United States and Mexico is a unique landscape for activists and humanitarians to work given the prevalence and amount of entities that police the area and the suspension of certain constitutional protections. The criminalization of activists on the border provides a unique lens in understanding how social movements and nation-building are linked to immigration in the United States. This research aims to provide a rich description of what criminalization is and how it plays out between the government and activist groups along the border. My findings critique the United States and its claim that it is a liberal democracy because it breaks norms and international laws in its assault against activists and humanitarians, many of whom are U.S. citizens. This attack further demonstrates that the violence migrants endure on the border is not just an unfortunate side effect of border policies but very much intentional and by design. In addition to criminalizing activists, this thesis examines the activists’ mental health and exhaustion as they relate to their humanitarian work and how this is also intentional violence the U.S. Government inflicts in order to maintain itself as a nation-state.
ContributorsRoether, Nichole (Author) / Colbern, Allan (Thesis advisor) / Firoz, Malay (Committee member) / Redeker-Hepner, Tricia (Committee member) / Arizona State University (Publisher)
Created2021