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Superconducting Nanowire Single-Photon Detectors for Quantum Information ScienceNicolich, Kathryn L. January 2021 (has links)
No description available.
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Quantum cryptography and quantum cryptanalysisMakarov, Vadim January 2007 (has links)
<p>This doctoral thesis summarizes research in quantum cryptography done at the Department of Electronics and Telecommunications at the Norwegian University of Science and Technology (NTNU) from 1998 through 2007.</p><p>The opening parts contain a brief introduction into quantum cryptography as well as an overview of all existing single photon detection techniques for visible and near infrared light. Then, our implementation of a fiber optic quantum key distribution (QKD) system is described. We employ a one-way phase coding scheme with a 1310 nm attenuated laser source and a polarization-maintaining Mach-Zehnder interferometer. A feature of our scheme is that it tracks phase drift in the interferometer at the single photon level instead of employing hardware phase control measures. An optimal phase tracking algorithm has been developed, implemented and tested. Phase tracking accuracy of +-10 degrees is achieved when approximately 200 photon counts are collected in each cycle of adjustment. Another feature of our QKD system is that it uses a single photon detector based on a germanium avalanche photodiode gated at 20 MHz. To make possible this relatively high gating rate, we have developed, implemented and tested an afterpulse blocking technique, when a number of gating pulses is blocked after each registered avalanche. This technique allows to increase the key generation rate nearly proportionally to the increase of the gating rate. QKD has been demonstrated in the laboratory setting with only a very limited success: by the time of the thesis completion we had malfunctioning components in the setup, and the quantum bit error rate remained unstable with its lowest registered value of about 4%.</p><p>More than half of the thesis is devoted to various security aspects of QKD. We have studied several attacks that exploit component imperfections and loopholes in optical schemes. In a large pulse attack, settings of modulators inside Alice's and Bob's setups are read out by external interrogating light pulses, without interacting with quantum states and without raising security alarms. An external measurement of phase shift at Alice's phase modulator in our setup has been demonstrated experimentally. In a faked states attack, Eve intercepts Alice's qubits and then utilizes various optical imperfections in Bob's scheme to construct and resend light pulses in such a way that Bob does not distinguish his detection results from normal, whereas they give Bob the basis and bit value chosen at Eve's discretion. Construction of such faked states using several different imperfections is discussed. Also, we sketch a practical workflow of breaking into a running quantum cryptolink for the two abovementioned classes of attacks. A special attention is paid to a common imperfection when sensitivity of Bob's two detectors relative to one another can be controlled by Eve via an external parameter, for example via the timing of the incoming pulse. This imperfection is illustrated by measurements on two different single photon detectors. Quantitative results for a faked states attack on the Bennett-Brassard 1984 (BB84) and the Scarani-Acin-Ribordy-Gisin 2004 (SARG04) protocols using this imperfection are obtained. It is shown how faked states can in principle be constructed for quantum cryptosystems that use a phase-time encoding, the differential phase shift keying (DPSK) and the Ekert protocols. Furthermore we have attempted to integrate this imperfection of detectors into the general security proof for the BB84 protocol. For all attacks, their applicability to and implications for various known QKD schemes are considered, and countermeasures against the attacks are proposed.</p><p>The thesis incorporates published papers [J. Mod. Opt. 48, 2023 (2001)], [Appl. Opt. 43, 4385 (2004)], [J. Mod. Opt. 52, 691 (2005)], [Phys. Rev. A 74, 022313 (2006)], and [quant-ph/0702262].</p>
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Quantum cryptography and quantum cryptanalysisMakarov, Vadim January 2007 (has links)
This doctoral thesis summarizes research in quantum cryptography done at the Department of Electronics and Telecommunications at the Norwegian University of Science and Technology (NTNU) from 1998 through 2007. The opening parts contain a brief introduction into quantum cryptography as well as an overview of all existing single photon detection techniques for visible and near infrared light. Then, our implementation of a fiber optic quantum key distribution (QKD) system is described. We employ a one-way phase coding scheme with a 1310 nm attenuated laser source and a polarization-maintaining Mach-Zehnder interferometer. A feature of our scheme is that it tracks phase drift in the interferometer at the single photon level instead of employing hardware phase control measures. An optimal phase tracking algorithm has been developed, implemented and tested. Phase tracking accuracy of +-10 degrees is achieved when approximately 200 photon counts are collected in each cycle of adjustment. Another feature of our QKD system is that it uses a single photon detector based on a germanium avalanche photodiode gated at 20 MHz. To make possible this relatively high gating rate, we have developed, implemented and tested an afterpulse blocking technique, when a number of gating pulses is blocked after each registered avalanche. This technique allows to increase the key generation rate nearly proportionally to the increase of the gating rate. QKD has been demonstrated in the laboratory setting with only a very limited success: by the time of the thesis completion we had malfunctioning components in the setup, and the quantum bit error rate remained unstable with its lowest registered value of about 4%. More than half of the thesis is devoted to various security aspects of QKD. We have studied several attacks that exploit component imperfections and loopholes in optical schemes. In a large pulse attack, settings of modulators inside Alice's and Bob's setups are read out by external interrogating light pulses, without interacting with quantum states and without raising security alarms. An external measurement of phase shift at Alice's phase modulator in our setup has been demonstrated experimentally. In a faked states attack, Eve intercepts Alice's qubits and then utilizes various optical imperfections in Bob's scheme to construct and resend light pulses in such a way that Bob does not distinguish his detection results from normal, whereas they give Bob the basis and bit value chosen at Eve's discretion. Construction of such faked states using several different imperfections is discussed. Also, we sketch a practical workflow of breaking into a running quantum cryptolink for the two abovementioned classes of attacks. A special attention is paid to a common imperfection when sensitivity of Bob's two detectors relative to one another can be controlled by Eve via an external parameter, for example via the timing of the incoming pulse. This imperfection is illustrated by measurements on two different single photon detectors. Quantitative results for a faked states attack on the Bennett-Brassard 1984 (BB84) and the Scarani-Acin-Ribordy-Gisin 2004 (SARG04) protocols using this imperfection are obtained. It is shown how faked states can in principle be constructed for quantum cryptosystems that use a phase-time encoding, the differential phase shift keying (DPSK) and the Ekert protocols. Furthermore we have attempted to integrate this imperfection of detectors into the general security proof for the BB84 protocol. For all attacks, their applicability to and implications for various known QKD schemes are considered, and countermeasures against the attacks are proposed. The thesis incorporates published papers [J. Mod. Opt. 48, 2023 (2001)], [Appl. Opt. 43, 4385 (2004)], [J. Mod. Opt. 52, 691 (2005)], [Phys. Rev. A 74, 022313 (2006)], and [quant-ph/0702262].
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Towards saturation of detection efficiency in superconducting single-photon detectors at 4.2 K using local helium ion irradiationMartinez, Glenn 25 September 2021 (has links)
Superconducting single-photon detectors (SSPDs) are the leading detectors in terms of high-speed single-photon counting and high detection efficiency (DE). One factor that limits the DE is the critical current Ic, which is the maximum current before the superconductor switches to the normal state. Increasing device’s bias current towards the Ic can improve the DE. However, the device’s Ic is reduced due to constriction and current crowding at the edges of the wire. Typically, this is caused by fabrication defects. Locally suppressing superconductivity at these defects can potentially lessen the occurrence of current crowding.
In this thesis, we used the beam from the helium ion microscope (HIM) and measured the Ic to observe the effects of locally irradiating specific areas on a SSPD wire. Due to the HIM’s small spot size and high collimation, we can control the superconducting gap precisely at the center and edges of the wire. Suppressing the edges can potentially reduce current crowding and increase the device’s critical current while suppressing the center can improve detection sensitivity for photons incident at that location. Our results showed that the irradiated devices had reduced Ic compared to unirradiated devices for both cases. We then extend this method of local suppression of superconductivity to explore an alternative method of fabricating SSPDs by directly writing the device on the superconducting thin film. This can enable the fabrication of devices without the use of lithography resist. In our experiment, we fabricated a 3 μm wire using optical lithography that was disconnected at the center and connected it by writing a single 1 μm wire with the He+ ion beam. We measured the Ic for samples with and without the 1 μm wire pattern and observed that the Ic decreased as we increased the ion dose. Overall, this work aims to contribute to the continuing investigation of the detection mechanism for SSPDs and the improvement of nanofabrication methods using the HIM.
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Design of novel αvβ3 ligands as probes for imaging of tumour angiogenesis and site-directed delivery of cytotoxic drugsPiras, Monica January 2014 (has links)
The dependence of tumour growth and metastasis on blood vessels makes tumour angiogenesis a rational target for therapy. Imaging of αvβ3 expression could potentially be used as a biomarker and an early indicator of efficacy of antiangiogenic treatments at a molecular level. Research efforts have mainly focused on the development of RGD-based radiolabelled αvβ3 inhibitors suitable for PET and SPECT imaging modalities that, owing to their high sensitivity, represent the most powerful tool for monitoring in vivo tumour angiogenesis. The aim of this multidisciplinary project was the design, synthesis and biological evaluation of novel αvβ3 ligands as molecular imaging probes. Three classes of integrin antagonists were designed: 1) triazole-based RGD mimetics that can be isotopically-labelled with tritium, fluorine and iodine radioisotopes by means of highly practical procedures, 2) RGD peptidomimetics incorporating the metabolically stable 2,2,2-trifluoroethylamine function as a peptide bond bioisostere and 3) RGD cyclopeptides conjugated with FDR, a novel prosthetic group allowing glycosylation and 18F-fluorination of aminooxy-functionalised molecules in one synthetic step. RGD-based strategies have also been used for selective tumour delivery of chemotherapeutic agents. A number of cytotoxic drugs have been conjugated to RGD peptides, providing experimental evidence that αvβ3 targeted chemotherapy strategies could be used as a powerful tool to reduce the toxicity and augment the therapeutic window of existing cytotoxic agents. In this work, we described the rational design of a novel targeted cytotoxic conjugate containing a triazole-based RGD peptidomimetic as tumour-homing motif of the potent antimitotic agent, paclitaxel. Preliminary in vitro studies were performed to assess the therapeutic potential of this targeted cytotoxic construct.
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Pulmonary embolism diagnosis : a clinical comparison between conventional planar and SPECT V/Q imaging using Krypton 81m – with CTPA as the gold standardNgoya, Patrick Sitati 03 1900 (has links)
Thesis (MScMedSC (Medical Imaging and Clinical Oncology. Nuclear Medicine))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Single photon emission computed tomography (SPECT) with a superior contrast
resolution has been shown to be more sensitive and specific with a lower nondiagnostic
rate than planar imaging in many nuclear medicine studies but it is still not
being routinely implemented in V/Q studies at many centres including Tygerberg
Hospital. There are many studies on V/Q SPECT using Technegas as a ventilation
agent but very limited studies available on 81m Kr gas.
Aim: To clinically compare conventional planar and SPECT V/Q imaging using 81mKr
gas in the diagnosis of pulmonary embolism, with CTPA as the gold standard.
Patients and Methods: All patients referred with clinical suspicion of pulmonary
embolism were assessed. The inclusion criteria were normal chest radiograph,
normal renal function and no contrast allergy. Exclusion criteria were age below 18
years old, pregnancy, abnormal chest radiograph, abnormal serum creatinine/urea
levels and unstable patients. A Well’s score was assigned to each enrolled patient.
Perfusion scintigraphy was performed after intravenous injection 125 MBq of 99mTc
MAA. Ventilation scintigraphy was performed with 81mKr gas. On a dual head
camera, SPECT was done before planar acquisition, while perfusion was done
before ventilation imaging in the same position. Planar V/Q images consisted of 6
standard views. All V/Q SPECT images were reconstructed using ordered-subset
expectation-maximization (OSEM) algorithm and a post-reconstruction 3D
Butterworth filters were applied. V/Q Planar and V/Q SPECT images were later
evaluated and reviewed separately and reported based on recent EANM guidelines
blinded to the CTPA results.
All patients underwent multi-slice CTPA examinations on a 40-detector row scanner.
The images were later assessed and reported blinded to the V/Q results.
Statistical analysis was done using the Fisher exact test for comparison of
categorical variables and the one-way ANOVA for continuous variables (p<0.05 was significant). Results: A total of 104 consecutive patients were referred with clinical suspicion of
pulmonary embolism. Seventy-nine patients were excluded from this study mostly
due to abnormal serum creatinine/urea levels. Only 25 patients were included in this
study, with a mean age of 48 ± 19 years, and 64% being females. When compared
to CTPA as gold standard, the prevalence of PE was 16% [5% – 37% at 95% CI],
sensitivity 75% [21% – 99% at 95% CI], specificity 90% [68% – 98% at 95% CI],
positive predictive value 60% [17% – 93% at 95% CI], negative predictive value 95%
[73% – 100% at 95% CI] and diagnostic accuracy 88% [69% – 97%at 95% CI] for
both V/Q Planar and SPECT. V/Q Planar showed a lower reader confidence i.e.
could only clearly resolve 72% of cases compared to V/Q SPECT, which could
precisely interpret all cases, showed more and better delineated mismatch vs match
and segmental vs non-segmental defects. All patients who were scored as PE
unlikely on Wells’ score (4) had PE ruled out on CTPA (p=0.04581) as well as 89%
of patients on V/Q SPECT and V/Q Planar.
Conclusion: Based on this study, V/Q Planar and V/Q SPECT have a similar
diagnostic performance in patients with a normal or near normal chest X-rays. / AFRIKAANSE OPSOMMING: Enkelfoton emissie rekenaartomografie (EFERT) met beter kontrasresolusie is
bewys om meer sensitief en spesifiek met ‘n laer nie-diagnostiese opbrengs as
planare beelding in verskeie kerngeneeskunde ondersoeke te wees. In Tygerberg
Hospitaal, soos in verskeie ander sentra, word dit egter steeds nie roetineweg vir
ventilasie-perfusiestudies (V/Q) geïmplementeer nie. Daar is verskeie EFERT V/Q
studies met Technegas as ventilasie agens, maar beperkte studies met 81m Kr gas
beskikbaar.
Doel: Om konvensionele planare en EFERT V/Q beelding vir die diagnose van
pulmonale embolisme met mekaar te vergelyk, met rekenaartomografie pulmonale
angiografie (RTPA) as goue standaard.
Pasiënte en Metodes: Alle pasiënte wat met ‘n kliniese vermoede van pulmonale
embolisme verwys is, is geevalueer. Die insluitingskriteria was ’n normale borskas Xstraal,
normale nierfunksie en geen kontrasallergie nie. Uitsluitingskriteria was
pasiënte jonger as 18 jaar, swanger pasiënte, abnormale borskas X-straal,
abnormale serum kreatinien / ureumvlakke en onstabiele pasiënte. ’n Wells telling is
vir elke pasiënt wat in die studie ingesluit is, bepaal.
Perfusiebeelding is uitgevoer na die intraveneuse toediening van 125 MBq 99mTc
MAA. Ventilasiestudies is gedoen met 81mKr gas. Die V/Q EFERT studies is voor die
planare beelding met ’n dubbelkop gammakamera uitgevoer. Perfusiebeelding is
voor die ventilasie in dieselfde posisie verkry. V/Q planare beelding het bestaan uit 6
standaard beelde. Alle V/Q EFERT is met “ordered-subset expectationmaximization”
(OSEM) algoritmes verwerk, en post-rekonstruksie 3D Butterworth
filters is toegepas. V/Q planare en V/Q EFERT beelding is later afsonderlik en
sonder RTPA inligting volgens onlangse EANM riglyne evalueer en gerapporteer.
‘n Veelsnit RTPA met ‘n 40 snit skandeerder is op alle pasiënte uitgevoer. Die
beelde is later beoordeel en gerapporteer sonder inagneming van die V/Q
beeldingsresultate
Statistiese verwerking is gedoen met die Fisher presisietoets vir vergelyking van
kategoriese veranderlikes en die eenrigting ANOVA vir kontinue veranderlikes
(p<0.05 is statisties betekenisvol). Resultate: ‘n Totaal van 104 opeenvolgende pasiënte met ‘n kliniese vermoede van
pulmonale embolisme is verwys. Nege-en-sewentig pasiënte is uitgesluit, in die
meeste gevalle as gevolg van abnormale serum kreatinienvlakke. Slegs 25 pasiënte
is ingesluit, met ’n gemiddelde ouderdom van 48 ± 19 jaar, en 64% vroue. In
vergelyking met RTPA as goudstandaard, was die prevalensie van PE 16% [5% –
37% met 95% VI], sensitiwiteit 75% [21% – 99% met 95% VI], spesifisiteit 90% [68%
– 98% met 95% VI], positiewe voorspellingswaarde 60% [17% – 93% met 95% VI],
negatiewe voorspellingswaarde 95% [73% – 100% met 95% VI] en diagnostiese
akkuraatheid van 88% [69% – 97% met 95% VI] vir beide planare en EFERT V/Q
beelde. V/Q planare beelde het ‘n laer lesersvertroue getoon, nl. dat slegs 72% van
gevalle opgelos kon word relatief tot V/Q EFERT beelde, wat in alle gevalle presies
geïnterpreteer kon word, met meer en beter omskrewe nie-ooreenstemmende
teenoor ooreenstemmende en segmentele teenoor nie-segmentele defekte. In alle
pasiënte met ‘n Wells puntetelling van 4 is PE met die RTPA uitgeskakel
(p=0.04581), terwyl dit in 89% van pasiënte met V/Q EFERT en planare beelde
uitgeskakel is.
Gevolgtrekking: Gebaseer op hierdie studie het V/Q planare en EFERT beelding ‘n
ooreenstemmende diagnostiese prestasie in pasiënte met ’n normale of naby
normale borskas X-straal.
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The added value of SPECT/CT in complicated osteomyelitisTag, Naima 12 1900 (has links)
ENGLISH ABSTRACT: Background: The detection of bone infection can be very difficult especially in bone with altered
structure due to prior trauma or surgical procedures. Complicated osteomyelitis (COM) is becoming a
public health problem especially with the difficult choice between, high cost surgery and prolonged
courses of intravenous or oral antibiotic therapy, as well as the social and psychological effect of longterm
disease and disability of the patient. The correct localisation of especially bone infection is still a
challenge for the clinician. The single photon emission computed tomography/low dose computed
tomography (SPECT/CT), by fusing the functional information with the anatomical parts, is a wellestablished
tool used in many nuclear medicine studies. This improves the overall quality of the study
with more clear answers. The aim of the study was to determine the added value of SPECT/CT in the
management of complicated osteomyelitis (COM) in patients with endo-prosthesis, post traumatic
osteomyelitis with and without metal implants and diabetic foot.
Methods: This was a prospective study, between February 2010 and February 2012. Patients with
suspected COM who fulfilled the selection and inclusion criteria were included. All had abnormal three
phase bone scan followed by infection imaging with 99mTc labelled white blood cells and 99mTc -colloid if
the99mTc labelled white blood cell study was abnormal. 67Ga citrate was used in vertebral involvement.
Planar and SPECT/CT images were reviewed for presence of abnormal uptake and for its localization in
bone and soft tissue. Scan results were defined as positive or negative. Both planar and SPECT/CT
images were compared regarding diagnosis and precise localization of infection. The final diagnosis was
obtained from surgical specimen or microbiological culture as well as clinical follow-up of all patients.
Results: There were 72 patients, 29 male and 43 female with mean age of 57 yrs [range 27-88].There
were 24 patients with prosthesis, 16 with hip prosthesis (PH=16), and 8 with knee prosthesis (PK=8).
There were 44 patients with post traumatic osteomyelitis, 26 with metal implants (TOM=26) and 18
without metal implants (TOWM= 18). Four patients had diabetic foot (DF= 4). Infection was diagnosed
in 19/72 patients on planar images and in 21/72 on SPECT/CT. Infection was diagnosed in 4 patients
with prosthesis, 16 patients with post traumatic injury and one diabetic foot patient. The four patients
with prosthesis, SPECT /CT added diagnostic value by excluding osteomyelitis in 3 patients and by
defining the exact extent and localizing soft tissue and bone infection (STI/OM) in one patient. In 16
patients with post traumatic OM on planar images, SPECT /CT added diagnostic value, by excluding OM in 4 patients and confirming only STI, better localisation of the uptake in bone
and soft tissue in 5 patients, of them 2 patient was negative on planar, and in 7 patients, confirmed and
defined the exact extent of
both OM and STI. One diabetic foot was positive for STI on the planar, the SPECT/CT added diagnostic
value by defining the extent of the infection.
In summary the added value of SPECT/CT was:
a. Overall infection:
1. Exclusion of osteomyelitis by confirming only soft tissue involvement: 7 patients (10%)
2. Better localization in bone and soft tissue: 6 patients (8%)
3. Better delineation of extent of infection: 9 patients (12%)
4. None: 50 patients (70%)
b. In positive cases only:
1. Exclusion of osteomyelitis by confirming only soft tissue involvement: 7 patients (33%)
2. Better localization in bone and soft tissue: 5 patients (24%)
3. Better delineation of extent of infection: 9 patients (43%)
4. None: 0 patients
The overall sensitivity, specificity, positive predictive value, negative predictive value and accuracy for
infection, on planar was 90%, 100%, 100%, 97%, 97%, respectively and for SPECT/CT 100%, 100%,
100%, 100%, 100%. For OM on planar, the sensitivity, specificity , positive predictive value, negative
predictive value and accuracy was 100%, 89%, 53%, 100%, 90%, respectively and for SPECT/CT 100%,
100%, 100%, 100%, 100%.
Conclusion:
In complicated osteomyelitis, SPECT/CT is useful in localizing, defining the exact extent of infection
where the planar images are abnormal, with no added value if the planar images are negative. We
recommend in clinical practice the routine use of hybrid SPECT/CT imaging in complicated osteomyelitis
when planar images are abnormal. / AFRIKAANSE OPSOMMING: Agtergrond: Die opspoor van beeninfeksie is veral moeilik in been wat as gevolg van vorige trauma of
chirurgiese prosedures misvorm is. Gekompliseerde osteomiëlitis word ‘n gesondheidsprobleem veral
as gevolg van die moeilike keuse tussen hoë koste chirurgie en langdurige kursusse binneaarse of orale
antibiotika, asook die sosiale en sielkundige gevolge van langstaande siekte en die gestremdheid van die
pasiënt.
Die korrekte lokalisering van veral beeninfeksie is steeds ‘n uitdaging vir die geneesheer. Enkel foton
emissie rekenaartomografie / lae dosis rekenaartomografie (SPECT/CT), die kombinasie van funksionele
en anatomiese inligting, is ‘n goed gevestigde metode in baie kerngeneeskunde ondersoeke. Dit
verbeter die algemene kwaliteit van die studie met ‘n meer spesifieke antwoord. Die doel van hierdie
studie was om die bykomende waarde van SPECT/CT in die hantering van gekompliseerde osteomiëlitis
in pasiënte met endo-protese, post traumatise osteomiëlitis met en sonder metaal prosteses asook
diabetiese voet te bepaal.
Metode: ‘n Prospektiewe studie is tussen Februarie 2010 en Februarie 2012 gedoen. Pasiënte met
vermoedelik gekompliseerde osteomiëlitis wat aan die keuse en insluitingskriteria voldoen het, is
ingesluit. Almal het abnormale drie-fase beenflikkergramme gehad, gevolg deur infeksiebeelding met
99mTc gemerkte witselle en 99mTc kolloïed indien die 99mTc gemerkte witselstudie abnormaal was.
67Ga sitraat is gebruik wanneer daar werwelaantasting teenwoordig was. Die planare en SPECT/CT
beelde is vergelyk ten opsigte van diagnose en presiese lokalisering van die infeksie. Die finale diagnose
is met behulp van chirurgiese monsters en mikrobiologiese kweking asook die kliniese opvolg van alle
pasiënte bepaal.
Resultate: Die studie het 72 pasiënte, 29 mans en 43 vroue, met gemiddelde ouderdom van 57 jaar [27
– 88 ingesluit]. Daar was 24 pasiënte met prosteses, waarvan 16 met heupprosteses (PH= 16) en 8 met
knieprosteses (PK= 8). Van die 44 pasiënte met post traumatiese osteomiëlitis, het 26 metaal prosteses
(TOM= 26) en 18 geen metaalprosteses gehad nie (TOWM= 18). Vier pasiënte het diabetiese voet gehad
(DF= 4). By 19/72 van die pasiënte is infeksie op die planare beelde gediagnoseer en in 21/72 op die
SPECT/CT beelde. Die bykomende twee gevalle was 1 met TOM en 1 met TOWM.
Infeksie is by 4 pasiënte met prosteses, 16 pasiënte met post traumatiese besering en 1 met diabetiese
voet gediagnoseer. In die vier pasiënte met prosteses, het SPECT/CT ‘n diagnostiese bydrae gelewer om
osteomiëlitis by 3 van die pasiënte uit te skakel en die presiese omvang en lokalisering van sagte weefsel en beeninfeksie (STI/OM) in een pasiënt te bepaal. In 16 pasiënte met
post traumatise osteomiëlitis op die planare beelde, was SPECT/CT van diagnostiese waarde, waar
osteomiëlitis in 4 pasiënte uitgesluit is, en slegs STI bevestig is. Beter lokalisering van die opname in
been en sagte weefsel was in 5 pasiënte moontlik, van wie 2 op die planare beelde negatief was, en in 7
pasiënte bevestig en die presiese omvang met beide OM en STI gedefinieer is. Een diabetiese voet was
positief vir STI op die planare beelde, maar die SPECT/CT het diagnostiese waarde verbeter deur die
omvang van die infeksie beter te toon.
Ter opsomming, was die waarde van die SPECT/CT:
1. Uitsluiting van osteomiëlitis deur slegs van sagte weefsel aantasting te bevestig:
7 pasiënte 10%
2. Beter lokalisering in been en sagte weefsel: 5 pasiënte 7%
3. Beter definisie van omvang van infeksie: 9 pasiënte 12%
4. Geen bykomende waarde: 51 pasiënte 71%
Die algehele sensitiwiteit, spesifisiteit, positiewe voorspellingswaarde, negatiewe voorspellingswaarde
en akkuraatheid vir die opspoor van infeksie vir die planare beelde was 90%, 100%, 100%, 97%, 97%,
onderskeidelik en vir die SPECT/CT 100%, 100%, 100%, 100% en 100%. Vir osteomiëlitis was
sensitiwiteit, spesifisiteit, positiewe voorspellingswaarde, negatiewe voorspellingswaarde en
akkuraatheid van planare beelde 100%, 89%, 53%, 100%, 90%, onderskeidelik en die van SPECT/CT
100%, 100%, 100%, 100% , 100%.
Gevolgtrekking: SPECT/CT is nuttig in die lokalisering en definiëring van die presiese omvang van die
infeksie in gekompliseerde osteomiëlitis in gevalle waar die planare beelde abnormaal is, met geen
bykomende waarde wanneer planare beelde negatief is nie. Ons beveel SPECT/CT beelding as roetine in
kliniese praktyk aan wanneer planare beelde in gekompliseerde osteomiëlitis abnormaal is.
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Investigations of memory, entanglement, and long-range interactions using ultra-cold atomsDudin, Yaroslav 20 June 2012 (has links)
Long-term storage of quantum information has diverse applications in quantum information science. This work presents an experimental realization of quantum memories with lifetimes greater then 0.1 s. The memories are based on cold rubidium atoms confined in one-dimensional optical lattices. First realization of lattice-based quantum memory and entanglement between a light field and a spin wave is presented in Chapter II. Chapter III describes two different methods (two-photon and magnetic) of compensation for inhomogeneous differential light shifts between the memory levels due to optical trapping potentials, and demonstration of entanglement between a telecom-band light field and a light-shift compensated memory qubit. Highly excited Rydberg atoms present a unique platform for study of strongly correlated systems and quantum information, because of their enormous dipole moments and consequent strong, long-range interactions. In the experiment described in Chapter IV single collective Rydberg excitations are created in a cold atomic gas. After a variable storage period the excitations are converted into light. As the principal quantum number n of the Rydberg level is increased beyond ~ 70, no more than a single excitation is retrieved from the entire mesoscopic ensemble of atoms. In Chapter V, by spatially selective conversion of the spin wave into a light field, we demonstrate that Rydberg-level interactions create long-range correlations of collective atomic excitations. These results hold promise for studies of dynamics and disorder in many-body systems with tunable interactions and for scalable quantum information networks. Chapter VI presents initial observations of coherent many-body Rabi oscillations between the ground level and a Rydberg level using several hundred cold rubidium atoms. The strongly pronounced oscillations indicate a nearly complete excitation blockade of the entire mesoscopic ensemble by a single excited atom.
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Robust quantum phenomena for quantum information processingClose, Tom A. January 2013 (has links)
This thesis is concerned with finding technologically useful quantum phenomena that are robust against real world imperfections. We examine three different areas covering techniques for spin measurement, photon preparation and error correction. The first research chapter presents a robust spin-measurement procedure, using an amplification approach: the state of the spin is propagated over a two-dimensional array to a point where it can be measured using standard macroscopic state mea- surement techniques. Even in the presence of decoherence, our two-dimensional scheme allows a linear growth in the total spin polarisation - an important increase over the √t obtainable in one-dimension. The work is an example of how simple propagation rules can lead to predictable macroscopic behaviour and the techniques should be applicable in other state propagation schemes. The next chapter is concerned with strategies for obtaining a robust and reliable single photon source. Using a microscopic model of electron-phonon interactions and a quantum master equation, we examine phonon-induced decoherence and assess its impact on the rate of production, and indistinguishability, of single photons emitted from an optically driven quantum dot system. We find that, above a certain threshold of desired indistinguishability, it is possible to mitigate the deleterious effects of phonons by exploiting a three-level Raman process for photon production. We introduce a master equation technique for quantum jump situations that should have wide application in other situations. The final chapter focusses on toric error correcting codes. Toric codes form part of the class of surface codes that have attracted a lot of attention due to their ability to tolerate a high level of errors, using only local operations. We investigate the power of small scale toric codes and determine the minimum size of code necessary for a first experimental demonstration of toric coding power.
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Single Photon Sources and Single Quantum System enabled CommunicationHameedi, Muhammad Alley January 2017 (has links)
Quantum information is a highly interesting and fast emerging field that involves processing information encoded into quantum systems and their subsequent use in various information tasks. The use of quantum resources such as superposition and entanglement have shown to enhance information processing capabilities beyond classical means in a number of communication, information and computation tasks. In this thesis, we have used single photons to study the advantage of d-level quantum systems (qudits) for a communication task commonly known as random access codes (RACs). A successful experimental demonstration of quantum random access codes (QRACs) with four dimensions is realized to demonstrate that the higher dimensional QRACs not only outperform the classical RACs but also provide an advantage over their quantum bit (qubit) counterparts. QRACs are also studied in regards to two specific applications: certification of true randomness and for testing the non-classicality of quantum systems. A method for increased certification of generated randomness is realized for the former and a successful experimental demonstration of a test of non-classicality with arbitrarily low detection efficiency is provided for the latter. This is followed by an implementation of a QRAC in a one-path communication network consisting of preparation, transformation and measurement devices. We have shown that the distributed QRAC provides optimal success probabilities for a number of tasks. Moreover, a novel quantum protocol for the solution to the problem of dining cryptographers and anonymous veto voting is also presented. This single photon transmission based protocol provides an efficient solution, which is experimentally demonstrated for a 3-party description. Lastly, Nitrogen-Vacancy (NV) center in diamond is studied as a potential resource for single photon emission and two methods to enhance the photon collection efficiency are successfully explored. Due to this enhancement, single photons from an NV center may also be used in similar single quantum system based communication experiments. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript. Paper 5: Manuscript.</p>
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