1,735,767 research outputs found

    Sphagneticola trilobata (L.) Pruski: an aromatic invasive agricultural weed abundant in alpha-pinene

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    Sphagneticola trilobata (L.) Pruski (Asteraceae) is an essential oil- bearing soil creeper, with ethnomedicinal claims. The chemical composition of the volatile metabolites of the leaves, stem, and flowers were analyzed by means of gas chromatography-mass spectrometry (GC-MS). A total of forty constituents were identified, accounting for 98.2-99.5% of the oils composition. The predominant compounds in the leaf oil were α-pinene (57.9%) and germacrene D (7.1%), while α-pinene characterized the stem (89.5%) and flower (95.8%) oils. S. trilobata is a natural rich source of α- pinene, and can be exploited for further useful benefit

    aadithya-naresh/Weather: Release for DOI

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    <p>Creating an initial release for Zenodo to register a DOI</p&gt

    Ultra-broadband Bismuth-Doped Fiber Amplifier Covering a 115-nm Bandwidth in the O and E Bands

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    This dataset supports the publication:Yu Wang, Naresh K Thipparapu, David J Richardson, Jayanta Sahu. (2020) Ultra-broadband Bismuth-Doped Fiber Amplifier Covering a 115-nm Bandwidth in the O and E Bands. Journal of Lightwave Technology</span

    Dataset: Broadband Bismuth-Doped Fiber Amplifier with a Record 115-nm Bandwidth in the O and E Bands

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    This dataset supports the publication: Yu Wang, Naresh K Thipparapu, David J Richardson, Jayanta Sahu. (2020). Broadband bismuth-doped fiber amplifier with a record 115-nm bandwidth in the O and E bands. OFC 2020.</span

    Dataset for: High Gain Bi-Doped Fiber Amplifier Operating in the E-band with a 3-dB Bandwidth of 40nm

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    This dataset supports the publication: Yu Wang, Naresh K Thipparapu, David J Richardson, Jayanta Sahu. (2021) High Gain Bi-Doped Fiber Amplifier Operating in the E-band with a 3-dB Bandwidth of 40nm. In: OFC 2021</span

    <b>Naresh Singhal's </b><b>Inaugural Professorial Lecture</b> (31 July 2023) <i>Are we there yet? If not, where to go next?</i>

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    About the lecture:In this lecture, Naresh will explore the stories his father told him in his childhood as a way of reflecting on his academic journey. He will also discuss his contributions, core values, and leadership development, and share insights into his research on understanding microbial functions in wastewater treatment using various omics techniques. These insights have enabled us to connect process operations to the elimination of emerging contaminants like pharmaceuticals and the reduction of nitrous oxide emissions. He will also highlight the potential of wastewater as a valuable source of biochemicals and our recent efforts to study how natural waterbodies respond to climate change. Lastly, he will draw inspiration from influential leaders to emphasise the important role of academia in society.About the speaker:Naresh is an environmental engineer who is passionate about water and wastewater quality and treatment technologies. He holds an undergraduate degree from the Indian Institute of Technology – Mumbai, a masters degree from Louisiana State University, and a PhD from Princeton University. Since 1996, Naresh has been a valuable member of the University of Auckland, serving in various roles, including Associate Dean (Postgraduate) in the Faculty of Engineering and a member of the Faculty Staffing Committee in the Engineering and Science Faculties. Currently, Naresh leads a Marsden grant focused on the degradation of emerging contaminants in wastewater and serves as the Director of a newly established Water Research Centre within the department. He actively contributes to Engineering New Zealand's Auckland Branch Committee and is a member of Water New Zealand's climate change special interest group.</p

    Dataset: Study on the temperature dependent characteristics of O-band bismuth-doped fiber amplifier

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    This dataset supports the publication: Yu Wang, Naresh K Thipparapu, Siyi WANG, Pranabesh BARUA, David J Richardson, Jayanta Sahu. (2019) Study on the temperature dependent characteristics of O-band bismuth-doped fiber amplifier. Optics Letters. </span

    O-band bismuth-doped fiber amplifier and its temperature dependent performance

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    This dataset supports the publication: Yu Wang, Naresh K Thipparapu, Siyi Wang, Pranabesh Barua, Andrey A Umnikov, David J Richardson, Jayanta Sahu. (2019) O-band bismuth-doped fiber amplifier and its temperature dependent performance, 6th Workshop on Specialty Optical Fiber and Their Applications (WSOF 2019) </span
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