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Electronic Thesis and Dissertation
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About
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This document describes the pieces of ETDs that are pertinent for migration from Digital Commons. The document attempts
to illustrate everything we have and be flexible for how we approach migration.
.. image:: ../images/etd_from_digital_commons.png
:width: 1200
:alt: Image of the Data Model of an ETD that started in Digital Commons
All ETDs are available in one of two directories: utk_graddiss or utkgradthes. Like other series in Digital Commons,
ETD objects are contained in individual directories with starting with a number.
.. image:: ../images/folder_structure.png
:width: 1200
:alt: Image of ETD folder structure
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The PDF
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Each ETD has two PDFS: one with the original Filename from the user and one with the word stamped.
.. image:: ../images/etd_pdfs.png
:width: 1200
:alt: Image of ETD layout
For our purposes, the PDF marked stamped is important because only it has the decision letter from the graduate school.
Also, it has a cover letter generated by Digital Commons that may need to be removed.
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Metadata
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Digital Commons has its own custom metadata schema and we can provide a copy of it or an in house, MODS generated
version of the file.
MODS
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.. code-block:: xml
utk_gradthes/2732
Lindsey
Adam Coleman
Author
Mariya Zhuravleva
Thesis advisor
Charles L. Melcher
Committee member
Frederico Harte
Committee member
Svetlana Zivanovic
Committee member
Bin Zhao
Committee member
The Crystal Growth of Cesium Cerium Chloride Scintillator for X-Ray and Gamma-Ray Spectroscopy Applications
Semiconductor and Optical Materials
<p><a href="http://foo.bar/baz">http://foo.bar/baz</a>The detection and identification of sources of nuclear radiation is an integral tool in defending our nation from threats of nuclear terrorism as well as enforcement of nuclear non-proliferation agreements around the globe. To improve the capabilities in this application, new detection materials surpassing the performance of existing technology utilizing sodium iodide [NaI:Tl] scintillator crystals must be developed and their production cost lowered to meet the demand for the large volumes required. A recently discovered intrinsic scintillation material in the form of crystalline cesium cerium chloride (CsCe<sub>2</sub>Cl<sub>7</sub>) has demonstrated promising performance in the detection of X-ray and gamma ray radiation. In order to assess the potential of this material to be developed into larger scale growth of crystals greater than one cubic inch in volume, research into optimizing the growth processes at smaller volumes is necessary.</p>
<p>Single crystalline boules of CsCe<sub>2</sub>Cl<sub>7</sub> were grown from the melt in sealed fused silica ampoules using the Bridgman method of crystal growth. A transparent growth furnace along with continuous observation apparatus were developed to aid in the investigation of the growth processes. A comparison of growth and cracking behavior under varied conditions was produced and growth protocols identified which improve crystal boule quality. Crystal quality benefits from controlling the self-seeding process through manipulation and control of critical freezing point isotherms during growth. Cracking appears to originate from aggressive detachment of the crystal from the fused silica ampoule wall while inclusions formed during growth by constitutional supercooling of the melt introduce additional crack nucleation sites through action as stress intensifiers within the bulk matrix. Reducing ampoule volume has a minor effect on cracking severity while additions of excess cesium chloride to the initial mixture produce a greater reduction in cracking. The anisotropic coefficients of thermal expansion as well as the refined crystal structure of cesium cerium chloride have been determined through single crystal Laue and temperature dependent powder X-ray diffraction pattern analyses respectively.</p>
text
2014-03-03T14:31:16-08:00
2014-05
Master of Science
Materials Science and Engineering
University of Tennessee
Academic theses
masters thesis
Scintillator, Metal Halide, CsCe2Cl7, crystal growth, bridgman method
Restricted: cannot be viewed until 2019-01-01
Graduate Theses and Dissertations
E_82_Argon_Above_Melt.mov
video/quicktime
SUPPL_1
E_82_Annealing_and_Cooling.mov
video/quicktime
SUPPL_2
E_68_1_G_2_TimelapsePull.mov
video/quicktime
SUPPL_3
E_91_Off_Stoichiometry.mov
video/quicktime
SUPPL_4
E_68_2_Small_Gradient.mov
video/quicktime
SUPPL_5
E_68_1_Large_Gradient.mov
video/quicktime
SUPPL_6
2014-03-03T14:31:16-08:00
University of Tennessee, Knoxville Libraries
Converted from bepress XML to MODS in general compliance to the MODS Guidelines (Version 3.5).
2018-03-12T13:13:43-04:00
Digital Commons XML
===================
.. code-block:: xml
The Crystal Growth of Cesium Cerium Chloride Scintillator for X-Ray and Gamma-Ray Spectroscopy Applications
2014-05-01T00:00:00-07:00
alindse9@utk.edu
University of Tennessee - Knoxville
Lindsey
Adam
Coleman
Scintillator
Metal Halide
CsCe2Cl7
crystal growth
bridgman method
Semiconductor and Optical Materials
<p><a href="http://foo.bar/baz">http://foo.bar/baz</a>The detection and identification of sources of nuclear radiation is an integral tool in defending our nation from threats of nuclear terrorism as well as enforcement of nuclear non-proliferation agreements around the globe. To improve the capabilities in this application, new detection materials surpassing the performance of existing technology utilizing sodium iodide [NaI:Tl] scintillator crystals must be developed and their production cost lowered to meet the demand for the large volumes required. A recently discovered intrinsic scintillation material in the form of crystalline cesium cerium chloride (CsCe<sub>2</sub>Cl<sub>7</sub>) has demonstrated promising performance in the detection of X-ray and gamma ray radiation. In order to assess the potential of this material to be developed into larger scale growth of crystals greater than one cubic inch in volume, research into optimizing the growth processes at smaller volumes is necessary.</p>
<p>Single crystalline boules of CsCe<sub>2</sub>Cl<sub>7</sub> were grown from the melt in sealed fused silica ampoules using the Bridgman method of crystal growth. A transparent growth furnace along with continuous observation apparatus were developed to aid in the investigation of the growth processes. A comparison of growth and cracking behavior under varied conditions was produced and growth protocols identified which improve crystal boule quality. Crystal quality benefits from controlling the self-seeding process through manipulation and control of critical freezing point isotherms during growth. Cracking appears to originate from aggressive detachment of the crystal from the fused silica ampoule wall while inclusions formed during growth by constitutional supercooling of the melt introduce additional crack nucleation sites through action as stress intensifiers within the bulk matrix. Reducing ampoule volume has a minor effect on cracking severity while additions of excess cesium chloride to the initial mixture produce a greater reduction in cracking. The anisotropic coefficients of thermal expansion as well as the refined crystal structure of cesium cerium chloride have been determined through single crystal Laue and temperature dependent powder X-ray diffraction pattern analyses respectively.</p>
http://trace.tennessee.edu/utk_gradthes/2732
http://trace.tennessee.edu/cgi/viewcontent.cgi?article=4028&context=utk_gradthes&unstamped=1
thesis
article
4028
2014-03-03T14:31:16-08:00
http://trace.tennessee.edu/context/utk_gradthes/article/4028/type/native/viewcontent
Masters Theses
5257305
utk_gradthes/2732
Mariya Zhuravleva
Charles L. Melcher, Frederico Harte, Svetlana Zivanovic, Bin Zhao
Master of Science
Materials Science and Engineering
2019-01-01T00:00:00-08:00
1
2014-05-01T00:00:00-07:00
E_68_1_Large_Gradient.mov
E_68_1_Large_Gradient.mov
http://trace.tennessee.edu/cgi/viewcontent.cgi?filename=1&article=4028&context=utk_gradthes&type=additional
video/quicktime
E_68_2_Small_Gradient.mov
E_68_2_Small_Gradient.mov
http://trace.tennessee.edu/cgi/viewcontent.cgi?filename=2&article=4028&context=utk_gradthes&type=additional
video/quicktime
E_82_Argon_Above_Melt.mov
E_82_Argon_Above_Melt.mov
http://trace.tennessee.edu/cgi/viewcontent.cgi?filename=3&article=4028&context=utk_gradthes&type=additional
video/quicktime
E_82_Annealing_and_Cooling.mov
E_82_Annealing_and_Cooling.mov
http://trace.tennessee.edu/cgi/viewcontent.cgi?filename=4&article=4028&context=utk_gradthes&type=additional
video/quicktime
E_91_Off_Stoichiometry.mov
E_91_Off_Stoichiometry.mov
http://trace.tennessee.edu/cgi/viewcontent.cgi?filename=5&article=4028&context=utk_gradthes&type=additional
video/quicktime
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Decision Letters and Correspondence from Graduate School
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Digital Commons does not provide us with correspondence from the Graduate School, but we have created a tool to scrape
this data from Digital Commons and make it available with the object.
.. code-block:: text
Date: Mon Nov 22 2010
Subject: No message sent
From: Graduate School
Decision: Accept Dissertation
-----------------------------------------------------------------------------------------------------------------------
Date: Tue Nov 16 2010
Subject: Revise and resubmit: Tantalum Carbene and Imide Complexes. Synthesis, Characterization, and Pathways of Formation
From: Graduate School
Decision: Major revisions required for acceptance
Hi Julia,
I have reviewed your dissertation for formatting. This email contains three sections: 1) Formatting review; 2) Trace resubmission instructions, and 3) Graduation information. All of this should be considered important information.
***********************************************
1) Formatting review:
Please make the following changes:
BLANK PAGES
There should not be any blank pages in the final version of your dissertation.
ABSTRACT
Your abstract should be 350 words or fewer. I would also caution against using sub or superscript letters in the abstract, if possible.
***********************************************
2) Trace resubmission instructions:
In order to submit a new version, please go to your My
Account page
(http://trace.tennessee.edu/cgi/myaccount.cgi).
On the My Account page, click the title of this article,
then click the 'revise submission' link on the resulting
article preview page. Use the Revise Submission form to
upload any changes to your dissertation.
The final version will need to be uploaded as a PDF. Do not rely on the Trace conversion
application, as that doesn't do the best job.
***********************************************
3) Graduation information
If you are trying to meet the fall deadline, I will need by November 19:
1. The final version of your dissertation reviewed again and uploaded to Trace in PDF format. Please let me know when you have uploaded this version. Make sure you have looked over the PDF and corrected any changes and removed any content or markings that are not intended to be in the final version. You will not be able to make changes after you submit the final version. Please name your final version LastnameFirstname December2010dissertation.pdf
2. Your signed approval sheet, turned in to me. (Note that this is different from the Pass/Fail form that your graduation specialist should have sent to your committee chair.)
The signed version of the approval sheet can either be:
• hand-delivered to me -- I am the only person in the office who can take it, so if you choose this option, I would email or call ahead before you or the person you entrust this task to come over; or,
• sent via UPS, USPS, or FedEx (FedEx and UPS being preferred over USPS, as FedEx and UPS will deliver straight to our office and not to the central campus mail station.) NOTE: The deadline is not a “postmarked by” date and the approval sheet has to reach me by 5 PM on that deadline. It is your responsibility to get this approval sheet in.
3. For you to take the Survey of Earned Doctorates (http://web.utk.edu/~thesis/sed.shtml) and send me the certificate of completion as confirmation.
If you have any questions, please email me at
thesis@utk.edu.
Thanks,
Kris Bronstad
Thesis/Dissertation Consultant
The Graduate School
111 Student Services Bldg
1331 Circle Park
Knoxville, TN 37996-0211
865-974-1337
thesis@utk.edu
http://web.utk.edu/~thesis
© 2019 The Berkeley Electronic Press
-----------------------------------------------------------------------------------------------------------------------
Date: Fri Jul 30 2010
Subject: Revise and resubmit: TANTULUM CARBENE AND IMIDE COMPLEXES. CHARACTERIZATION AND FORMATION PATHWAYS.
From: Graduate School
Decision: Major revisions required for acceptance
Hi Julia,
I have reviewed your dissertation for formatting. This email contains three sections: 1) Formatting review; 2) Trace resubmission instructions, and 3) Graduation information. All of this should be considered important information.
***********************************************
1) Formatting review:
Please make the following changes:
Obviously you will need to fix the table of contents and lists of tables and figures before you tun in the final version.
The page numbering starts over with page 1 of chapter 1.
If you are placing a table or figure on a page with non-caption text in the body of your paper, text must cover at least half the page; the table or figure may not cover more than half the page below or above the text, including the title and at least a half inch space. See page 91.
***********************************************
2) Trace resubmission instructions:
In order to submit a new version, please go to your My
Account page
(http://trace.tennessee.edu/cgi/myaccount.cgi).
On the My Account page, click the title of this article,
then click the 'revise submission' link on the resulting
article preview page. Use the Revise Submission form to
upload any changes to your dissertation.
The final version will need to be uploaded as a PDF. Do not rely on the Trace conversion
application, as that doesn't do the best job.
***********************************************
3) Graduation information
If you are graduating this summer, I will need by August 6th:
1. The final version of your dissertation reviewed again and uploaded to Trace in PDF format. Please let me know when you have uploaded this version. Make sure you have looked over the PDF and corrected any changes and removed any content or markings that are not intended to be in the final version. You will not be able to make changes after you submit the final version. Please name your final version LastnameFirstname August2010dissertation.pdf
2. Your signed approval sheet, turned in to me. (Note that this is different from the Pass/Fail form that your graduation specialist should have sent to your committee chair.)
The signed version of the approval sheet can either be:
• hand-delivered to me -- I am the only person in the office who can take it, so if you choose this option, I would email or call ahead before you or the person you entrust this task to come over; or,
• sent via UPS, USPS, or FedEx (FedEx and UPS being preferred over USPS, as FedEx and UPS will deliver straight to our office and not to the central campus mail station.) NOTE: The deadline is not a “postmarked by” date and the approval sheet has to reach me by 5 PM on that deadline. It is your responsibility to get this approval sheet in.
3. For you to take the Survey of Earned Doctorates (http://web.utk.edu/~thesis/sed.shtml) and send me the certificate of completion as confirmation.
If you have any questions, please email me at
thesis@utk.edu.
Thanks,
Kris Bronstad
Thesis/Dissertation Consultant
The Graduate School
111 Student Services Bldg
1331 Circle Park
Knoxville, TN 37996-0211
865-974-1337
thesis@utk.edu
http://web.utk.edu/~thesis
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Additional File(s)
------------------
Some ETDs may have associated files. We assume that any withdrawn or embargo restrictions would apply to all parts of an
ETD including its parts.
.. image:: ../images/complex_etd.png
:width: 1200
:alt: A complex ETD.
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Withdrawn Status
----------------
If an ETD that was published had to be taken down for any reason, a unique XPATH is added to the descriptive metadata
signifying the object was withdrawn from the system on a given date. While the date is not important to us, the fact
that the object should be restricted from all users besides admins is. These objects should be migrated but should
be restricted from view in the system. The withdrawn status can be found at /documents/document/withdrawn.
.. code-block:: xml
:emphasize-lines: 26
Modeling of Unreinforced Construction Joints in Plain Concrete Using GT STRUDL
2005-05-01T00:00:00-07:00
University of Tennessee - Knoxville
Carroll
James
Christopher
Civil Engineering
<p>The purpose of this study was to develop a method to predict the behavior of unreinforced concrete construction joints using the computer program GT STRUDL. Two three-dimensional finite element models of a navigation lock wall were constructed. The wall was subjected to eccentric prestress forces, which brought about concern for lift-off within the lock wall.</p>
<p>Eleven loading combinations were evaluated, which were created from seven independent loading conditions. Stresses for each loading combination were compared to nominal strength values as detennined by ACI 318-02, Chapter 22, for plain concrete. Results show the stresses to be acceptable throughout the wall and displacements to be negligible; thus, the structural integrity of the lock wall is adequate for continued operation.</p>
<p>A detailed description of the study including the computer modeling, results, and recommendations are discussed in this thesis.</p>
http://trace.tennessee.edu/utk_gradthes/586
http://trace.tennessee.edu/cgi/viewcontent.cgi?article=1734&context=utk_gradthes&unstamped=1
thesis
article
1734
2010-06-03T09:29:55-07:00
Masters Theses
1342358
2011-06-02
utk_gradthes/586
Edwin G. Burdette
Richard M. Bennett
J. Hal Deatherage
Master of Science
Civil Engineering
2010-06-03T00:00:00-07:00
2005-05-01T00:00:00-07:00
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Embargoed XPATH
---------------
If an embargo exists, it will have a special xpath with its release date at:
/documents/document/fields/field[@name="embargo date"]/value.
.. code-block:: xml
:emphasize-lines: 50-52
Live Ghosts
2010-05-01T00:00:00-07:00
pireland@utk.edu
University of Tennessee - Knoxville
Ireland
Patricia
Anne
Creative writing
Southern
Patty Ireland
Knoxville TN
Master's thesis
Short stories
Arts and Humanities
English Language and Literature
<p>In Live Ghosts, Patricia (Patty) Ireland offers a gathering of short stories based upon real life characters she encountered while growing up in the South. Exploring the diversity, complexity and moral ambiguity of those we might normally perceive as being stereotypically “Southern,” Ireland’s tales encompass a variety of time periods, settings, and characters, including: a modern-day family struggling to reconcile the reality of death, interracial lovers in the early 1950’s who are descended from masters and slaves, and an insane killer locked for life in a mental institution of the 1990’s. Live Ghosts is infused with tales of fear, love, loss, regret, madness, and self discovery, themes intrinsic not only to Southern culture, but to the universal vulnerability in all of us.</p>
http://trace.tennessee.edu/utk_gradthes/634
http://trace.tennessee.edu/cgi/viewcontent.cgi?article=1631&context=utk_gradthes&unstamped=1
thesis
article
1631
2010-04-02T13:02:57-07:00
http://trace.tennessee.edu/context/utk_gradthes/article/1631/type/native/viewcontent
Masters Theses
1260069
utk_gradthes/634
Michael Knight
Marilyn Kallet
Allen Wier
Master of Arts
English
2019-12-01T00:00:00-08:00
2010-05-01T00:00:00-07:00