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Cosmic whirls in rust
Credit: R Shetty, K Jani, H Jani

Hariom Jani

Royal Society - University Research Fellow

Research theme

  • Quantum materials

Sub department

  • Condensed Matter Physics

Research groups

  • Oxide electronics
  • Designer Quantum Materials for Devices
hariom.jani@physics.ox.ac.uk
Clarendon Laboratory, room 276, Level 2
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Computing with rust

Harnessing whirls in iron-oxide

Where’s the very last place you would look if you wanted a new material to make computer memory? The compost heap or the scrap yard, probably. So who came up with the idea of using rust? Singapore’s Hariom Jani did. And he’s here to tell you it’s the futu

Cosmic strings in rust

Route towards stable homochiral topological textures in A -type antiferromagnets

Physical Review B American Physical Society (APS) 105:22 (2022) 224424

Authors:

Jack Harrison, Hariom Jani, Paolo G Radaelli
More details from the publisher

A cost-effective quantum eraser demonstration

(2022)

Authors:

Aarushi Khandelwal, Jit Bin Joseph Tan, Tze Kwang Leong, Yarong Yang, T Venkatesan, Hariom Jani
More details from the publisher
Details from ArXiV

Nanostructured Iron Vanadate Photoanodes with Enhanced Visible Absorption and Charge Separation

ACS Applied Energy Materials American Chemical Society (ACS) 5:3 (2022) 3409-3416

Authors:

Mengyuan Zhang, Yanan Fang, Ying Fan Tay, Yuan Liu, Liying Wang, Hariom Jani, Fatwa F Abdi, Lydia H Wong
More details from the publisher

Modern Physics demonstrations with DIY Smartphone Spectrometers

(2022)

Authors:

Aarushi Khandelwal, Tze Kwang Leong, Yarong Yang, Loo Kang Wee, Félix J García Clemente, T Venkatesan, Hariom Jani
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Details from ArXiV

Unravelling a new many-body large-hole polaron in a transition metal oxide that promotes high photocatalytic activity

npg Asia Materials Nature Research 14:1 (2022) 19

Authors:

Xiao Chi, Lily Mandal, Cuibo Liu, Angga Dito Fauzi, Anindita Chaudhuri, Thomas J Whitcher, Hariom Kirit Jani, Zhongxin Chen, Shibo Xi, Caozheng Diao, Muhammad Avicenna Naradipa, Xiaojiang Yu, Ping Yang, Antonio Helio Castro-Neto, Mark BH Breese, Kian Ping Loh, Thirumalai Venky Venkatesan, Andrivo Rusydi

Abstract:

In this work we investigate the delocalized excitons and excitons trapped by a polaron formation in \BVO{} by means of resonant Raman spectroscopy. We record Raman spectra with 16 laser lines between 1.9 and \SI{2.6}{\eV} and analyze intensity variations of the Raman peaks for different vibrational modes. The resonant Raman cross sections of the \Ag{} modes contain two types of resonances. The first high-energy resonance near \SI{2.45}{\eV} belongs to a transition between delocalized states; it is close to absorption edge measured at \SI{2.3}{\eV} and exhibits a characteristic \SI{50}{\meV} anisotropy between polarization parallel and perpendicular to the $c$ axis. The high energy Raman resonance occurs inside the gap at \SI{1.94}{\eV} for all crystallographic directions. The in-gap resonance can involve a localized transition. We attribute it to an exciton-polaron, formed by a small localized electron polaron of Holstein type and delocalized holes. It manifests in the vibrations of vanadium and oxygen atoms where polaron localization occurs and the resonance energy matches theoretical predictions. The vibrational modes couple to the polaron with different efficiency determined from resonant Raman profiles.Comment: main: 8 pages, 4 figures, supporting: 4 pages, 3 figure
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