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231 results on '"Singh, Deepak K."'

1. Altermagnetism in NiSi and antiferromagnetic candidate materials with non-collinear spins

Author

Singh, Deepak K., Cheong, Sang-Wook, and Guo, Jiasen

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Recently, a new class of magnetic phenomenon, called altermagnetism, was proposed where the underlying spin configuration resembles antiferromagnetic structure, but the system violates \textbf{PT} (PT: Parity times Time reversal) symmetry due to the alternation of crystalline symmetry across magnetic ions. Although the original idea was proposed for the collinear spin structure, a recent report by Cheong et al. has suggested that antiferromagnetic materials with non-collinear spin structure and local alternation of crystalline arrangement can also manifest altermagnetism. Besides breaking the \textbf{PT} symmetry, altermagnetic compounds are also expected to exhibit anomalous Hall effects of odd orders. Here, we discuss possible candidates in this regard. One example is nickel monosilicide, which was recently shown to exhibit high temperature antiferromagnetism with non-collinear spin structure. It fulfills both criteria of breaking the \textbf{PT} symmetry and manifesting nonlinear anomalous Hall effect. In addition to NiSi, we also discuss other potential antiferromagnetic materials with non-collinear spin configuration for the exploration of altermagnetic states., Comment: 13 pages, 13 figures, perspective

Published
2024

2. Persistent dynamic magnetic state in artificial honeycomb spin ice

Author

Guo, Jiasen, Ghosh, Pousali, Hill, Daniel, Chen, Yiyao, Stingaciu, Laura, Zolnierczuk, Piotr., Ullrich, Carsten A., and Singh, Deepak K.

Subjects
Condensed Matter - Strongly Correlated Electrons, Quantum Physics
Abstract

Topological magnetic charges, arising due to the non-vanishing magnetic flux on spin ice vertices, serve as the origin of magnetic monopoles that traverse the underlying lattice effortlessly. Unlike spin ice materials of atomic origin, the dynamic state in artificial honeycomb spin ice is conventionally described in terms of finite size domain wall kinetics that require magnetic field or current application. Contrary to this common understanding, here we show that thermally tunable artificial permalloy honeycomb lattice manifests a perpetual dynamic state due to self-propelled magnetic charge defect relaxation in the absence of any external tuning agent. Quantitative investigation of magnetic charge defect dynamics using neutron spin echo spectroscopy reveals sub-ns relaxation times that are comparable to monopole's relaxation in bulk spin ices. Most importantly, the kinetic process remains unabated at low temperature where thermal fluctuation is negligible. This suggests that dynamic phenomena in honeycomb spin ice are mediated by quasi-particle type entities, also confirmed by quantum Monte-Carlo simulations that replicate the kinetic behavior. Our research unveils a new `macroscopic' magnetic particle that shares many known traits of quantum particles, namely magnetic monopole and magnon., Comment: 12 figures, 15 pages

Published
2023
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3. Field and temperature tuning of magnetic diode in permalloy honeycomb lattice

Author

Yumnam, George, Nandi, Moudip, Ghosh, Pousali, Abdullah, Amjed, Almasri, Mahmoud, Henriksen, Erik, and Singh, Deepak K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The observation of magnetic diode behavior with ultra-low forward voltage of 5 mV renders new venue for energetically efficient spintronic device research in the unconventional system of two-dimensional permalloy honeycomb lattice. Detailed understanding of temperature and magnetic field tuning of diode behavior is imperative to any practical application. Here, we report a comprehensive study in this regard by performing electrical measurements on magnetic diode sample as functions of temperature and magnetic field. Magnetic diode is found to persist across the broad temperature range. Magnetic field application unveils a peculiar reentrant characteristic where diode behavior is suppressed in remnant field but reappears after warming to room temperature. Analysis of I-V data suggests a modest energy gap, 0.03-0.1 eV, which is comparable to magnetic Coulomb's interaction energy between emergent magnetic charges on honeycomb vertices in the reverse biased state. It affirms the role of magnetic charge correlation in unidirectional conduction in 2D honeycomb lattice. The experimental results are expected to pave way for the utilization of magnetic diode in next generation spintronic device applications., Comment: 7 pages, 5 figures

Published
2022

5. List of contributors

Author

Aalam, Gulshitab, primary, Ahmad, Sameer, additional, Alabdallah, Nadiyah M., additional, Ali, S. Wazed, additional, AL-Moaikal, Reem M., additional, Alsanie, Sumayah I., additional, Al-Suhaimi, Ebtesam A., additional, Amir, Md, additional, Andrabi, Syed Aasif Hussain, additional, Andrabi, Syed Safoora, additional, Baykal, Abdulhadi, additional, Bilal, Saqib, additional, Dar, Mudasir Ahmad, additional, Ditta, Allah, additional, Dutta, Subhajit, additional, Elsheery, Nabil I., additional, Fatima, Areej, additional, Fawad, Muhammad, additional, Gul, Alvina, additional, Gupta, Amit, additional, Hakeem, Khalid Rehman, additional, Hamid, Asfer, additional, Haq, Ehtisham ul, additional, Huda, Noor ul, additional, Jaiswal, Jyoti, additional, Jha, Shweta, additional, Ji, Arfa, additional, Karagoz, Aysel, additional, Khan, Abid, additional, Khan, Muhammad Aziz, additional, Khan, Salman, additional, Korkmaz, Ayse Demir, additional, Kotb, Essam, additional, Krismastuti, Fransiska Sri Herwahyu, additional, Kumari, Neha, additional, Meliana, Yenny, additional, Mishra, Vishnu, additional, Omar, Samar, additional, Pathak, Jainendra, additional, Rai, Krishna Kumar, additional, Rai, L.C., additional, Rai, Ruchi, additional, Raj, Alka, additional, Rasool, Akhtar, additional, Sarfraz, Wajiha, additional, Shahzad, Raheem, additional, Shehzad, Adeeb, additional, Singh, Deepak K., additional, Singh, Jawahar, additional, Singh, Prashant R., additional, Singh, Shilpi, additional, Sinha, Rajeshwar P., additional, Sriwastaw, Sonam, additional, Sudewi, Sri, additional, Thul, Sanjog T., additional, Tombuloglu, Guzin, additional, Tombuloglu, Huseyin, additional, Varshney, Vishal, additional, Zedan, Amina M., additional, and Zulfajri, Muhammad, additional

Published
2024
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6. Quantum magnetic properties and metal-to-insulator transition in chemically doped calcium ruthenate perovskite

Author

Singh, Deepak K., Ernst, Arthur, Dugaev, Vitalii, Chen, Yiyao, and Gunasekera, Jagath

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Ruthenates provide comprehensive platform to study a plethora of novel properties, such as quantum magnetism, superconductivity and magnetic fluctuation mediated metal-insulator transition. In this article, we provide an overview of quantum mechanical phenomenology in calcium ruthenium oxide with varying compositions. While the stochiometric composition of CaRuO$_{3}$ exhibits non-Fermi liquid behavior with quasi-criticality, chemically doped compounds depict prominent signatures of quantum magnetic fluctuations at low temperature that in some cases are argued to mediate in metal-insulator transition. In the case of cobalt doped- CaRuO$_{3}$, an unusual continuum fluctuation is found to persist deep inside the glassy phase of the material. These observations reflect the richness of ruthenate research platform in the study of quantum magnetic phenomena of fundamental importance., Comment: 7 pages, 8 figures

Published
2021
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7. Mechanism of magnetic diode in artificial honeycomb lattice

Author

Yumnam, George, Guo, Jiasen, Chen, Yiyao, Dahal, Ashutosh, Ghosh, Pousali, Cunningham, Quinn, Keum, Jong, Lauter, Valeria, Abdullah, Amjed, Almasri, Mahmoud, and Singh, Deepak K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin diode is important prerequisite to practical manifestation of spin electronics. Yet, a functioning magnetic diode at room temperature is still illusive. Here, we reveal diode-type phenomena due to magnetic charge mediated conduction in artificial honeycomb geometry, made of concave shape single domain permalloy element. We find that honeycomb lattice defies symmetry by populating vertices with low and high multiplicity magnetic charges, causing asymmetric magnetization, in applied current of opposite polarity. High multiplicity units create highly resistive network, thereby inhibiting magnetic charge dynamics propelled electrical conduction. However, practical realization of this effect requires modest demagnetization factor in constituting element. Concave structure fulfills the condition. Subsequently, magnetic diode behavior emerges across broad thermal range of $T$ = 40K - 300K. The finding is a departure from the prevailing notion of spin-charge interaction as the sole guiding principle behind spintronics. Consequently, a new vista, mediated by magnetic charge interaction, is envisaged for spintronic research, Comment: 4 figures

Published
2021

8. Various facets of magnetic charge correlation: Micromagnetic and distorted waveBorn approximation simulations study

Author

Yumnam, George, Guo, Jiasen, and Singh, Deepak K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

The emergent concept of magnetic charge quasi-particle provides a new realm to study the evolution of magnetic properties in two-dimensional artificially frustrated magnets. We report on the exploration of magnetic phases due to various magnetic charge correlation using the complementary numerical techniques of micromagnetic and distorted wave Born approximation simulations in artificial permalloy honeycomb lattice. The honeycomb element length varies between 10 nm and 100 nm, while the width and thickness are kept within the single domain limit. In addition to the charge ordered loop state, we observe disordered charge arrangement, characterized by the random distribution of $\pm$Q charges, in single domain size honeycomb lattice. As the length of honeycomb element increases, low multiplicity magnetic charges tend to form contiguous bands in thinner lattice. Thin honeycomb lattice with 100 nm element length exhibits a perfect spin ice pattern, which remains unaffected to the modest increase in the width of element size. We simulate scattering profiles under the pretext of distorted wave Born approximation formalism for the micromagnetic phases. The results are expected to provide useful guidance in the experimental investigation of magnetic phases in artificial honeycomb magnet., Comment: 9 pages, 6 figures

Published
2021
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9. Quantum disordered state of magnetic charges in nanoengineered honeycomb lattice

Author

Yumnam, George, Chen, Yiyao, Guo, Jiasen, Keum, Jong K., Lauter, Valeria, and Singh, Deepak K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Other Condensed Matter
Abstract

A quantum magnetic state due to magnetic charges is never observed, even though they are treated as quantum mechanical variable in theoretical calculations. Here, we demonstrate the occurrence of a novel quantum disordered state of magnetic charges in nanoengineered magnetic honeycomb lattice of ultra-small connecting elements. The experimental research, performed using spin resolved neutron scattering, reveals a massively degenerate ground state, comprised of low integer and energetically forbidden high integer magnetic charges, that manifests cooperative paramagnetism at low temperature. The system tends to preserve the degenerate configuration even under large magnetic field application. It exemplifies the robustness of disordered correlation of magnetic charges in 2D honeycomb lattice. The realization of quantum disordered ground state elucidates the dominance of exchange energy, which is enabled due to the nanoscopic magnetic element size in nanoengineered honeycomb. Consequently, an archetypal platform is envisaged to study quantum mechanical phenomena due to emergent magnetic charges.

Published
2021
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10. Magnetic charge's relaxation propelled electricity in two-dimensional magnetic honeycomb lattice

Author

Chen, Yiyao, Yumnam, George, Guo, Jiasen, Stingaciu, Laura, Zolnierczuk, Piotr, Lauter, Valeria, and Singh, Deepak K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

Emerging new concepts, such as magnetic charge dynamics in two-dimensional magnetic material, can provide novel mechanism for spin based electrical transport at macroscopic length. In artificial spin ice of single domain elements, magnetic charge's relaxation can create an efficient electrical pathway for conduction by generating fluctuations in local magnetic field that couple with conduction electrons spins. In a first demonstration, we show that the electrical conductivity is propelled by more than an order of magnitude at room temperature due to magnetic charge defects sub-picosecond relaxation in artificial magnetic honeycomb lattice. The direct evidence to the proposed electrical conduction mechanism in two-dimensional frustrated magnet points to the untapped potential for spintronic applications in this system.

Published
2021
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15. Short commentary on comparing previous claim of RT superconductivity with the data of arXiv:1807.08572, 'Evidence for Superconductivity at Ambient Temperature and Pressure in Nanostructures'

Author

Singh, Deepak K.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

I briefly mention a previous claim of room temperature superconductivity ( arXiv:0905.3524) in Ag-based oxide material and compare their results with the most recent claim of ambient temperature superconductivity in arXiv:1807.08572. In both cases, an electrical transition to low resistance state and diamagnetism are observed. Silver is a common ingredient in both claims. Does it mean that silver holds the key to RT superconductivity or, the missing field cool data (in both reports) hint of some other physical phenomenon than superconductivity., Comment: 2 pages, 1 figure, regarding new arXiv report of arXiv:1807.08572

Published
2018

19. Metallic Nickel Silicides: Experiments and Theory for NiSi and First Principles Calculations for Other Phases

Author

Dahal, Ashutosh, Gunasekera, Jagath, Harringer, Leland, Singh, Deepak K., and Singh, David J.

Subjects
Condensed Matter - Materials Science
Abstract

We report detailed experimental investigation of the transport and magnetic properties of orthorhombic NiSi along with first principles studies of this phase and related nickel silicides. Neutron scattering shows no evidence for magnetism, in agreement with first principles calculations. Comparison of first principles results and experimental results from our measurements and literature show a weak electron phonon coupling. We discuss transport and other properties of NiSi and find behavior characteristic of a weak correlated metal far from magnetism. Trends among the nickel silicides as a function of nickel content are discussed.

Published
2016
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20. LOSS OF SEQA LEADS TO ABNORMAL CELL PHENOTYPE AND REDUCED STRESS GENE EXPRESSION DURING RAPID GROWTH IN ESCHERICHIA COLI.

Author

Singh, Deepak K., Faraz, Amir, and Joshi, Mohan C.

Subjects
ESCHERICHIA coli, PROTEOMICS, GENE expression, CHROMOSOME segregation, DNA damage, DNA repair
Abstract

Cohesion plays a critical role in chromosome segregation in both eukaryotes and E. coli, with defects leading to aneuploidy and in eukaryotes, contributing to cancer. In E. coli, SeqA regulates genomic cohesion and its loss results in segregation defect and the loss of genomic integrity. The impact of growth rate on cell phenotype and the differential proteome profile under varying growth conditions in cohesion mutants of E. coli remains unknown. In this study, we demonstrate that in nutrient-rich media, ∆seqA strain exhibits significantly increased doubling time and lower cell densities compared to wild-type strain. However, no significant differences in cell doubling time or cell density were observed in nutrient-poor media. Differential whole-proteome analysis of fast-growing ∆seqA cells revealed upregulation of genes involved in translation and chemotaxis, while stress-response genes, including those related to envelope stress and DNA damage repair, were downregulated. In contrast, during the stationary phase, differential expression was observed for genes related to protein and nucleotide metabolism. Our data shows that, during faster growth, ∆seqA mutant strains experience increased defects in chromosome segregation and DNA damage. Additionally, the reduced expression of stress-response genes results in a delayed SOS response, which leads to slower growth and increased doubling time. These findings provide valuable insights into the relationship between cohesion, segregation, growth rate and stress responses. [ABSTRACT FROM AUTHOR]

Published
2024
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21. MANCR lncRNA Modulates Cell-Cycle Progression and Metastasis by Cis-Regulation of Nuclear Rho-GEF.

Author

Singh, Deepak K., Cong, Zhengmin, Song, You Jin, Liu, Minxue, Chaudhary, Ritu, Liu, Dazhen, Wang, Yu, Prasanth, Rishabh, K C, Rajendra, Lizarazo, Simon, Akhnoukh, Miriam, Gholamalamdari, Omid, Moitra, Anurupa, Jenkins, Lisa M., Bhargava, Rohit, Nelson, Erik R., Van Bortle, Kevin, Prasanth, Supriya G., and Prasanth, Kannanganattu V.

Subjects
*GENE expression, *GENETIC engineering, *RNA-binding proteins, *BREAST cancer, *GENETIC transcription, *DNA repair
Abstract

A significant number of the genetic alterations observed in cancer patients lie within nonprotein-coding segments of the genome, including regions coding for long noncoding RNAs (lncRNAs). LncRNAs display aberrant expression in breast cancer (BrCa), but the functional implications of this altered expression remain to be elucidated. By performing transcriptome screen in a triple negative BrCa (TNBC) isogenic 2D and 3D spheroid model, we observed aberrant expression of >1000 lncRNAs during BrCa progression. The chromatin-associated lncRNA MANCR shows elevated expression in metastatic TNBC. MANCR is upregulated in response to cellular stress and modulates DNA repair and cell proliferation. MANCR promotes metastasis as MANCR-depleted cells show reduced cell migration, invasion, and wound healing in vitro, and reduced metastatic lung colonization in xenograft experiments in vivo. Transcriptome analyses reveal that MANCR modulates expression and pre-mRNA splicing of genes, controlling DNA repair and checkpoint response. MANCR promotes the transcription of NET1A, a Rho-GEF that regulates DNA damage checkpoint and metastatic processes in cis, by differential promoter usage. Experiments suggest that MANCR regulates the expression of cancer-associated genes by modulating the association of various transcription factors and RNA-binding proteins. Our results identified the metastasis-promoting activities of MANCR in TNBC by cis-regulation of gene expression. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Magnetic Order of the Hexagonal Rare Earth Manganite Dy(0.5)Y(0.5)MnO3

Author

Helton, Joel S., Singh, Deepak K., Nair, Harikrishnan S., and Elizabeth, Suja

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Hexagonal Dy(0.5)Y(0.5)MnO3, a multiferroic rare-earth manganite with geometrically frustrated antiferromagnetism, has been investigated with single-crystal neutron diffraction measurements. Below 3.4 K magnetic order is observed on both the Mn (antiferromagnetic) and Dy (ferrimagnetic) sublattices that is identical to that of undiluted hexagonal DyMnO3 at low temperature. The Mn moments undergo a spin reorientation transition between 3.4 K and 10 K, with antiferromagnetic order of the Mn sublattice persisting up to 70 K; the antiferromagnetic order in this phase is distinct from that observed in undiluted (h)DyMnO3, yielding a qualitatively new phase diagram not seen in other hexagonal rare-earth manganites. A magnetic field applied parallel to the crystallographic c axis will drive a transition from the antiferromagnetic phase into the low-temperature ferrimagnetic phase with little hysteresis., Comment: Six pages, four figures v2: Table I added, Figures 2 and 3 edited, text edited. August 24, 2011

Published
2011
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27. Synthesis and Characterization of Single Crystal Samples of Spin-$1/2$ Kagome Lattice Antiferromagnets in the Zn-Paratacamite Family Zn$_{x}$Cu$_{4-x}$(OH)$_{6}$Cl$_{2}$

Author

Han, Tianheng, Helton, Joel S., Chu, Shaoyan, Prodi, Andrea, Singh, Deepak K., Mazzoli, Claudio, Müller, Peter, Nocera, Daniel G., and Lee, Young S.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The Zn-paratacamite family, Zn$_{x}$Cu$_{4-x}$(OH)$_{6}$Cl$_{2}$ for $x \, \geq$ 0.33, is an ideal system for studying spin-1/2 frustrated magnetism in the form of antiferromagnetic Cu$^{2+}$ kagome planes. Here we report a new synthesis method by which high quality millimeter-sized single crystals of Zn-paratacamite have been produced. These crystals have been characterized by metal analysis, x-ray diffraction, neutron diffraction, and thermodynamic measurements. The $x$ = 1 member of the series displays a magnetic susceptibility that is slightly anisotropic at high temperatures with $\chi_{c} \, > \, \chi_{ab}$. Neutron and synchrotron x-ray diffraction experiments confirm the quality of these $x$ = 1 single crystals and indicate no obvious structural transition down to temperatures of T=2 K., Comment: 4 pages, 3 figures, accepted by PRB rapid communication

Published
2011
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28. Magnetization Vorticity and Exchange Bias Phenomena in Arrays of Small Asymmetric Magnetic Rings

Author

Singh, Deepak K., Yang, T., and Tuominen, Mark T.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Arrays of nanoscopic magnetic asymmetric rings, 150 nm in outer diameter, are fabricated using the techniques of electron-beam lithography, angular deposition and ion-beam etching. Magnetic measurements for cobalt asymmetric rings at room temperature verifies previous reports of vortex magnetic state formation of a desired circulation direction for the application of external magnetic field along the asymmetry axis of the rings. However, the main theme of this article is the observation of exchange bias phenomena when the ring samples are cooled down to low temperature in the presence of a positive magnetic field. Very interestingly, the observed exchange bias effect is negative for along and perpendicular orientations of ring's asymmetry axis with respect to the in-plane external magnetic field. This is in good quantitative agreement with the random interface model proposed by Malozemoff et al. For the application of inplane external magnetic field at 45 degree with respect to the asymmetry axis, the exchange bias effect is positive. Unlike the exchange bias effects in thin films, this is a very unusual observation indicating that exchange bias phenomena of opposite natures can be manipulated by appropriate combination of geometrical constraint and external magnetic field direction, in addition to the interfacial interactions between ferromagnetic (FM) and antiferromagnetic (AFM) layer., Comment: Asymmetric magnetic rings arrays; Exchange bias phenomena

Published
2010
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29. Practice Patterns for Managing Recurrent Glioblastoma Multiforme

Author

Bajaj, Jitin, additional, Kedia, Shweta, additional, Sharma, Arvind, additional, Gupta, Pankaj, additional, Ansari, Mohammad, additional, Deora, Harsh, additional, Garg, Kanwaljeet, additional, Dash, Chinmaya, additional, Madhugiri, Venkatesh S., additional, Das, Kuntal Kanti, additional, Tripathi, Manjul, additional, Singh, Deepak K., additional, Raju, Subodh, additional, Jagetia, Anita, additional, Vazhayil, Vikas, additional, Singh, Manmohan, additional, Mittal, R.S., additional, Gupta, Subhash, additional, Yadav, Y.R., additional, Ramzan, Altaf, additional, Umredkar, Alok, additional, Jha, Deepak Kumar, additional, and Mahapatra, A.K., additional

Published
2024
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31. Energetic Analysis of Magnetic Transitions in Ultra-small Nanoscopic Magnetic Rings

Author

Singh, Deepak K., Krotkov, Robert V., and Tuominen, Mark T.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

In this article, we report on experimental and theoretical investigations of magnetic transitions in cobalt rings of size (diameter, width and thickness) comparable to the exchange length of cobalt. Magnetization measurements were performed for two sets of magnetic ring arrays: ultra-small magnetic rings (outer diameter 13 nm, inner diameter 5nm and thickness 5 nm) and small thin-walled magnetic rings (outer diameter 150 nm, width 5 nm and thickness 5 nm). This is the first report on the fabrication and magnetic properties of such small rings. Our calculations suggest that if the magnetic ring's sizes are comparable to, or smaller than, the exchange length of the magnetic material, then only two magnetic states are important - the pure single domain state and the flux closure vortex state. The onion-shape magnetic state does not arise. Theoretical calculations are based on an energetic analysis of pure and slightly distorted single domain and flux closure vortex magnetic states. Based on the analytical calculations, a phase diagram is also derived for ultra-small ring structures exhibiting the region for vortex magnetic state formations as a function of material parameter., Comment: 10 pages, 15 figures

Published
2008
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34. Long Noncoding RNA PURPL Suppresses Basal p53 Levels and Promotes Tumorigenicity in Colorectal Cancer

Author

Li, Xiao Ling, Subramanian, Murugan, Jones, Matthew F., Chaudhary, Ritu, Singh, Deepak K., Zong, Xinying, Gryder, Berkley, Sindri, Sivasish, Mo, Min, Schetter, Aaron, Wen, Xinyu, Parvathaneni, Swetha, Kazandjian, Dickran, Jenkins, Lisa M., Tang, Wei, Elloumi, Fathi, Martindale, Jennifer L., Huarte, Maite, Zhu, Yuelin, Robles, Ana I., Frier, Susan M., Rigo, Frank, Cam, Maggie, Ambs, Stefan, Sharma, Sudha, Harris, Curtis C., Dasso, Mary, Prasanth, Kannanganattu V., and Lal, Ashish

Published
2017
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38. Multi-Year On-Farm Trial Data on the Performance of Long- and Short-Duration Wheat Varieties against Sowing Dates in the Eastern Indo-Gangetic Plain of India

Author

Ajay, Anurag, primary, Singh, Madhulika, additional, Patra, Subhajit, additional, Ranjan, Harshit, additional, Pundir, Ajay, additional, Poonia, Shishpal, additional, Kumar, Anurag, additional, Singh, Deepak K., additional, Kumar, Pankaj, additional, Ignatius, Moben, additional, Kumar, Prabhat, additional, Sherpa, Sonam R., additional, Malik, Ram K., additional, Kumar, Virender, additional, Singh, Sudhanshu, additional, Craufurd, Peter, additional, and McDonald, Andrew J., additional

Published
2023
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39. MacroH2A impedes metastatic growth by enforcing a discrete dormancy program in disseminated cancer cells

Author

Sun, Dan, primary, Singh, Deepak K., additional, Carcamo, Saul, additional, Filipescu, Dan, additional, Khalil, Bassem, additional, Huang, Xin, additional, Miles, Brett A., additional, Westra, William, additional, Sproll, Karl Christoph, additional, Hasson, Dan, additional, Bernstein, Emily, additional, and Aguirre-Ghiso, Julio A., additional

Published
2022
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42. PSIP1/p75 promotes tumorigenicity in breast cancer cells by promoting the transcription of cell cycle genes

Author

Singh, Deepak K, Gholamalamdari, Omid, Jadaliha, Mahdieh, Ling Li, Xiao, Lin, Yo-Chuen, Zhang, Yang, Guang, Shuomeng, Hashemikhabir, Seyedsasan, Tiwari, Saumya, Zhu, Yuelin J, Khan, Abid, Thomas, Anu, Chakraborty, Arindam, Macias, Virgilia, Balla, Andre K, Bhargava, Rohit, Janga, Sarath Chandra, Ma, Jian, Prasanth, Supriya G, Lal, Ashish, and Prasanth, Kannanganattu V

Published
2017
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