92 research outputs found
Doctor of Philosophy
dissertationLocalized electronic states, in particular defect states and charge carrier transitions into and between these states, are the microscopic origin for major efficiency limitations of semiconductor materials and devices. Investigating these defects and their physical properties, including their chemical identity, their energy and spatial distribution, and also their paramagnetic behavior (spin relaxation times, spin-dependent transitions, spin coupling parameters), can strongly improve the understanding of how defects interact with macroscopic materials' properties and thus, it can help to find and create better semiconductor materials and devices. The focus of the study presented in the following chapters was to open up experimental access to the detection of single electronic defects in condensed matter with sub-nanometer spatial resolution that simultaneously also allows for the identification of a defect's chemical identity and magneto-electronic properties like spin. First, a brief overview about a theoretically described single-spin magnetic resonance tunneling force microscopy concept is presented, for which it is proposed to observe the spin-manifold of individual defects through detection of random telegraph noise produced by spin-dependent tunneling into and out of the probe state. Then, several key requirements for the implementation of this concept are implemented and verified by utilization of a low-temperature ultra--high--vacuum scanning probe microscope. In particular, it is demonstrated that it is possible to (i) prepare a silicondioxide layer on crystalline silicon with very high (>5x10^{18} cm^{-3}) densities of silicon dangling bonds (so-called E' centers) that possess a spin-dynamics that is suitable for their utilization as spin--readout probes for the investigated spin-microscopy concept; (ii) implement a set of magnetic field field coils into the given low-temperature ultra-high-vacuum scanning-probe setup that allow for the excitation of magnetic resonance at low magnetic fields (<20mT); (iii) use this setup for the detection and imaging of individual phosphorus donor atoms, individual surface defect states, as well as charge currents that percolate through these states under appropriate bias conditions, and (iv) observe random telegraph noise of the Coulomb forces caused by individual electrons that randomly tunnel into and out of the observed highly localized surface states
Regenerable Sorbent for CO2 Removal
A durable, high-capacity regenerable sorbent can remove CO2 from the breathing loop under a Martian atmosphere. The system design allows near-ambient temperature operation, needs only a small temperature swing, and sorbent regeneration takes place at or above 8 torr, eliminating the potential for Martian atmosphere to leak into the regeneration bed and into the breathing loop. The physical adsorbent can be used in a metabolic, heat-driven TSA system to remove CO2 from the breathing loop of the astronaut and reject it to the Martian atmosphere. Two (or more) alternating sorbent beds continuously scrub and reject CO2 from the spacesuit ventilation loop. The sorbent beds are cycled, alternately absorbing CO2 from the vent loop and rejecting the adsorbed material into the environment at a high CO2 partial pressure (above 8 torr). The system does not need to run the adsorber at cryogenic temperatures, and uses a much smaller temperature swing. The sorbent removes CO2 via a weak chemical interaction. The interaction is strong enough to enable CO2 adsorption even at 3 to 7.6 torr. However, because the interaction between the surface adsorption sites and the CO2 is relatively weak, the heat input needed to regenerate the sorbent is much lower than that for chemical absorbents. The sorbent developed in this project could potentially find use in a large commercial market in the removal of CO2 emissions from coal-fired power plants, if regulations are put in place to curb carbon emissions from power plants
Studi Komparasi Usaha Budidaya Tebu (Saccharum officinarum L.) Varietas Cening (Klon TK 386) dan Varietas PS 864 di Kabupaten Tuban Jawa Timur
Currently, farmers cultivate several varieties of sugarcane. This causes difficulties for sugarcane farmers to determine which varieties are the best in achieving farming efficiency. This study was aimed to determine the income from sugarcane cultivation of cening variety (Clon TK 386) and PS 864 variety and to compare the efficiency of both varieties. Methods of data analysis was a quantitative analysis, namely the income analysis, R/C Ratio, and t-test. The results showed that the total costs incurred for sugarcane cultivation were IDR 32,845,000 from cening variety and IDR 32,310,000 from PS 864 variety. Revenue earned from the cening variety was IDR 63,864,400 with an income of IDR 31,019,400. Meanwhile, the revenue earned from PS 864 variety was IDR 59,187,800 with an income of IDR 26,877,800. In the cening variety sugarcane cultivation business, the R/C Ratio value was 1.94, while for the PS 864 variety, the R/C Ratio value was 1.83. A ratio greater than 1 indicated that both the cening variety and PA 864 sugarcane cultivation was profitable and feasible. The results of the t-test showed that the efficiency level of the cening variety sugarcane cultivation resulted in a higher business efficiency than the efficiency of the PS864 sugarcane cultivation. Based on the research results, it can be recommended that cening sugarcane cultivation (Clon TK 386) should be developed because it is more profitable and efficient. Saat ini banyak varietas tebu yang dibudidayakan oleh petani. Banyaknya varietas tersebut akan menimbulkan kesulitan bagi petani tebu untuk menentukan varietas mana yang akan dikembangkan dan mencapai efisiensi usahatani yang tinggi. Tujuan penelitian untuk mengetahui tingkat pendapatan usaha budidaya tebu varietas cening (Klon TK 386) dan varietas PS 864 serta untuk mengetahui perbandingan efisiensi usaha budidaya tebu varietas cening (Klon TK 386) dan varietas PS 864. Metode analisis yang digunakan yaitu analisis pendapatan, analisis R/C ratio dan Uji T-Test. Hasil penelitian menunjukkan biaya total yang dikeluarkan untuk usaha budidaya tebu yaitu sebesar Rp 32.845.000,00 (varietas cening) dan Rp 32.310.000,00 (varietas PS 864). Penerimaan usaha budidaya tebu varietas cening sebesar Rp 63.864.400,00 dengan pendapatan sebesar Rp 31.019.400,00. Sedangkan penerimaan usaha budidaya tebu varietas PS 864 sebesar Rp 59.187.800,00 dengan pendapatan sebesar Rp 26.877.800,00. Pada usaha budidaya tebu varietas cening diperoleh nilai R/C Ratio 1,94, sedangkan untuk varietas PS 864 diperoleh nilai R/C Ratio 1,83. Besarnya Ratio lebih besar dari 1 menunjukkan bahwa usaha budidaya tebu varietas cening dan varietas PA 864 menguntungkan dan layak untuk diusahakan. Hasil uji T-test menunjukkan tingkat efisiensi usaha budidaya tebu varietas cening menghasilkan efisiensi usaha yang lebih tinggi dibanding efisiensi usaha budidaya tebu varietas PS864. Berdasarkan hasil penelitian dapat direkomendasikan usaha budidaya tebu varietas Cenning (KLON TK 386) perlu dikembangkan karena lebih menguntungkan dan efisien
Separating hyperfine from spin-orbit interactions in organic semiconductors by multi-octave magnetic resonance using coplanar waveguide microresonators
Separating the influence of hyperfine from spin-orbit interactions in
spin-dependent carrier recombination and dissociation processes necessitates
magnetic resonance spectroscopy over a wide range of frequencies. We have
designed compact and versatile coplanar waveguide resonators for
continuous-wave electrically detected magnetic resonance, and tested these on
organic light-emitting diodes. By exploiting both the fundamental and
higher-harmonic modes of the resonators we cover almost five octaves in
resonance frequency within a single setup. The measurements with a common
pi-conjugated polymer as the active material reveal small but non-negligible
effects of spin-orbit interactions, which give rise to a broadening of the
magnetic resonance spectrum with increasing frequency
An efficient and low-cost method to create high-density nitrogen-vacancy centers in CVD diamond for sensing applications
The negatively charged Nitrogen-Vacancy (NV-) center in diamond is one of the
most versatile and robust quantum sensors suitable for quantum technologies,
including magnetic field and temperature sensors. For precision sensing
applications, densely packed NV- centers within a small volume are preferable
due to benefiting from 1/N^1/2 sensitivity enhancement (N is the number of
sensing NV centers) and efficient excitation of NV centers. However, methods
for quickly and efficiently forming high concentrations of NV- centers are in
development stage. We report an efficient, low-cost method for creating
high-density NV- centers production from a relatively low nitrogen
concentration based on high-energy photons from Ar+ plasma. This study was done
on type-IIa, single crystal, CVD-grown diamond substrates with an as-grown
nitrogen concentration of 1 ppm. We estimate an NV- density of ~ 0.57 ppm (57%)
distributed homogeneously over 200 um deep from the diamond surface facing the
plasma source based on optically detected magnetic resonance and fluorescence
confocal microscopy measurements. The created NV-s have a spin-lattice
relaxation time (T1) of 5 ms and a spin-spin coherence time (T2) of 4 us. We
measure a DC magnetic field sensitivity of ~ 104 nT Hz^-1/2, an AC magnetic
field sensitivity of ~ 0.12 pT Hz^-1/2, and demonstrate real-time magnetic
field sensing at a rate over 10 mT s-1 using an active sample volume of 0.2
um3
Detection of Iron in Nanoclustered Cytochrome C Proteins Using Nitrogen-Vacancy Magnetic Relaxometry
Nitrogen-vacancy (NV) magnetometry offers an alternative tool to detect iron
levels in neurons and cells with a favorable combination of magnetic
sensitivity and spatial resolution. Here we employ NV-T1 relaxometry to detect
Fe in cytochrome C (Cyt-C) nanoclusters. Cyt-C is a water-soluble protein that
contains a single heme group and plays a vital role in the electron transport
chain of mitochondria. Under ambient conditions, the heme group remains in the
Fe+3 paramagnetic state. We perform NV-T1 relaxometry on a functionalized
diamond chip and vary the concentration of Cyt-C from 6 uM to 54 uM, resulting
in a decrease of T1 from 1.2 ms to 150 us, respectively. This reduction is
attributed to spin-noise originating from the Fe spins present within the
Cyt-C. We perform relaxometry imaging of Cyt-C proteins on a nanostructured
diamond chip by varying the density of adsorbed iron from 1.44 x 10^6 to 1.7 x
10^7 per um^2
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