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• J.F. Mendez-Valderrama*, S. Kim* and Debanjan Chowdhury, Correlated Topological Mixed-Valence Insulators in Moiré Hetero-Bilayers, Phys. Rev. B 110, L201105 (2024). [arXiv] (Letter)  (Editors' suggestion)  

• Z. Yang, C. Marcenat, S. Kim, S. Imajo, M. Kimata, T. Nomura, A. De Muer, D. K. Maude, F. Iga, T. Klein, Debanjan Chowdhury, Y. Kohama, Evidence for large thermodynamic signatures of in-gap fermionic quasiparticle states in a Kondo insulator, Nature Communications 15, 7801 (2024).

• X. Wang, J.F. Mendez-Valderrama, J.S. Hofmann and Debanjan Chowdhury, Intertwined magnetism and superconductivity in isolated correlated flat bands, Phys. Rev. B 110, L041105 (2024). [arXiv] (Letter)  (Editors' suggestion)

• S. Kim, M. Saad, D. Mao, A. Agarwala and Debanjan Chowdhury, Quasicrystalline spin liquid, Phys. Rev. B 110, 214438 (2024). [arXiv]

• J.F. Mendez-Valderrama, D. Mao and Debanjan Chowdhury, Low-energy optical sum-rule in moiré graphene, Phys. Rev. Lett. 133, 196501 (2024). [arXiv]

• W. Zhao*, B. Shen*, Z. Tao*, S. Kim, P. Knüppel, Z. Han, Y. Zhang, K. Watanabe, T. Taniguchi, Debanjan Chowdhury, J. Shan, K.F. Mak, Emergence of ferromagnetism at the onset of moiré Kondo breakdown, Nature Physics 20, 1772 (2024). [arXiv]

• X. Wang, R. Moessner and Debanjan Chowdhury, Interaction-mitigated Landau damping, Phys. Rev. B 109, L121102 (2024). [arXiv] (Letter)

• T.G. Kiely and Debanjan Chowdhury, Continuous Wigner-Mott transitions at ν=1/5, Phys. Rev. B 110, L241112 (2024). [arXiv] (Letter)  (Editors' suggestion)

• D. Mao and Debanjan Chowdhury, Upper bounds on superconducting and excitonic phase-stiffness for interacting isolated narrow bands, Phys. Rev. B 109, 024507 (2024). [arXiv] (Editors' suggestion)

• Z. Yang, B. Fauque, T. Nomura, T. Shitaokoshi, S. Kim, Debanjan Chowdhury, Z. Pribulova, J. Kacmarcik, A. Pourret, G. Knebel, D. Aoki, T. Klein, D. K. Maude, C. Marcenat, Y. Kohama, Unveiling the double-peak structure of quantum oscillations in the specific heat, Nature Communications 14, 7006 (2023). [arXiv]

• J.F. Mendez-Valderrama*, E. Tulipman*, E. Zhakina, A.P. Mackenzie, E. Berg and Debanjan Chowdhury,  T-linear resistivity from magneto-elastic scattering: application to PdCrO2, Proceedings of the National Academy of Sciences 120 (36), e2305609120 (2023). [arXiv]

• E. Zhakina, R. Daou, A. Maignan, P.H. McGuinness, M. König, H. Rosner, S. Kim, S. Khim, R. Grasset, M. Konczykowski, E. Tulipman, J.F. Mendez-Valderrama, Debanjan Chowdhury, E. Berg, and A.P. Mackenzie,  Investigation of Planckian behavior in a high-conductivity oxide: PdCrO2, Proceedings of the National Academy of Sciences 120 (36), e2307334120 (2023). [arXiv]

• S.J. Thornton, D. Liarte, P. Abbamonte, J.P. Sethna and Debanjan Chowdhury, Jamming and unusual charge density fluctuations of strange metals, Nature Communications 14, 3919 (2023). [arXiv]

• D. Mao and Debanjan Chowdhury, Diamagnetic response and phase stiffness for interacting isolated narrow bands, Proceedings of the National Academy of Sciences 120 (11), e2217816120 (2023). [arXiv]

• X. Wang and Debanjan Chowdhury, Collective density fluctuations of strange metals with critical Fermi surfaces, Phys. Rev. B 107, 125157 (2023). [arXiv] (Editors' suggestion) 

• A.J. McRoberts*, J.F. Mendez-Valderrama*, R. Moessner and Debanjan Chowdhury, Intermediate-scale theory for electrons coupled to frustrated local-moments, Phys. Rev. B 107, L020402 (2023). [arXiv] (Letter)

• S. Kim, A. Agarwala and Debanjan Chowdhury, Fractionalization and topology in amorphous electronic solids, Phys. Rev. Lett. 130, 026202 (2023). [arXiv]

• S. Kim, T. Senthil and Debanjan Chowdhury, Continuous Mott transition in moiré semiconductors: role of long-wavelength inhomogeneities, Phys. Rev. Lett. 130, 066301 (2023). [arXiv]

• J.S. Hofmann, E. Berg and Debanjan Chowdhury, Superconductivity, charge density wave and supersolidity in flat bands with tunable quantum metric, Phys. Rev. Lett. 130, 226001 (2023). [arXiv]

• S. Xie, B.D. Faeth, Y. Tang, L. Li, E. Gerber, C.T. Parzyck, Debanjan Chowdhury, Y.H. Zhang, C. Jozwiak, A. Bostwick, E. Rotenberg, E-A. Kim, J. Shan, K.F. Mak, K.M. Shen, Strong interlayer interactions in bilayer and trilayer moiré superlattices, Science Advances 8, eabk1911 (2022).

• D. Liarte, S.J. Thornton, E. Schwen, I. Cohen, Debanjan Chowdhury, J.P. Sethna, Universal scaling for disordered viscoelastic matter II: Collapses, global behavior and spatio-temporal properties, arXiv:2202.13933. [arXiv]

• D. Liarte, S.J. Thornton, E. Schwen, I. Cohen, Debanjan Chowdhury, J.P. Sethna, Universal scaling for disordered viscoelastic matter near the onset of rigidity, Phys. Rev. E 106, L052601 (2022). [arXiv] (Letter)

• S. Musser, T. Senthil and Debanjan Chowdhury, Theory of a continuous bandwidth-tuned Wigner-Mott transition, Phys. Rev. B 106, 155145 (2022). [arXiv]

• S. Musser, Debanjan Chowdhury, P.A. Lee and T. Senthil, Interpreting angle dependent magnetoresistance in layered materials: application to cuprates, Phys. Rev. B 105, 125105 (2022). [arXiv]

• Debanjan Chowdhury, A. Georges, O. Parcollet and S. Sachdev, Sachdev-Ye-Kitaev Models and Beyond: A Window into Non-Fermi Liquids, Rev. Mod. Phys. 94, 035004 (2022). [arXiv]

• J.S. Hofmann, Debanjan Chowdhury, S.A. Kivelson and E. Berg, Heuristic bounds on superconductivity and how to exceed them, npj Quantum Materials 7, 83 (2022). [arXiv]

• T. Li, S. Jiang, L. Li, Y. Zhang, K. Kang, J. Zhu, K. Watanabe, T. Taniguchi, Debanjan Chowdhury, L. Fu, J. Shan, K.F. Mak, Continuous Mott transition in semiconductor moiré superlattices, Nature 597, 350 (2021). [arXiv]

• C. Lewandowski, S. Nadj-Perge and Debanjan Chowdhury, Does filling-dependent band renormalization aid pairing in twisted bilayer graphene?, npj Quantum Materials 6, 82 (2021). [arXiv]

• J.F. Mendez-Valderrama and Debanjan Chowdhury, Bad metallic transport in geometrically frustrated models, Phys. Rev. B 103, 195111 (2021). [arXiv]

• C. Lewandowski, Debanjan Chowdhury and J. Ruhman, Pairing in magic-angle twisted bilayer graphene: role of phonon and plasmon umklapp, Phys. Rev. B 103, 235401 (2021). [arXiv] (Editors' suggestion)

• L. Zou and Debanjan Chowdhury, Deconfined metal-insulator transitions in quantum Hall bilayers, Phys. Rev. Research 2, 032071(R) (2020). [arXiv] (Rapid Communication)

• L. Zou and Debanjan Chowdhury, Deconfined metallic quantum criticality: a U(2) gauge theoretic approach, Phys. Rev. Research 2, 023344 (2020). [arXiv]

• J.S. Hofmann, E. Berg and Debanjan Chowdhury, Superconductivity, pseudogap and phase separation in topological flat bands, Phys. Rev. B 102, 201112(R) (2020). [arXiv] (Rapid Communication) (Editors' suggestion)

• Debanjan Chowdhury and E. Berg, The unreasonable effectiveness of Eliashberg theory for pairing of non-Fermi liquids, Annals of Physics 417, 168125 (2020). (Special issue dedicated to Gerasim Eliashberg.) [arXiv]

• Debanjan Chowdhury and E. Berg, Intrinsic superconducting instabilities of a solvable model for an incoherent metal, Phys. Rev. Research 2, 013301 (2020). [arXiv]

• D. Mao, Debanjan Chowdhury, T. Senthil, Slow scrambling and hidden integrability in a random rotor model, Phys. Rev. B 102, 094306 (2020). [arXiv]

• Y. Cao*, Debanjan Chowdhury*, D. Rodan-Legrain, O. Rubies-Bigorda, K. Watanabe, T. Taniguchi, T. Senthil and P. Jarillo-Herrero, Strange metal in magic-angle graphene with near Planckian dissipation, Phys. Rev. Lett. 124, 076801 (2020) (arXiv) [Editors' suggestion] 

  [Featured in a Physics viewpoint article, Graphene reveals its strange side, by Subir Sachdev.]

• T.A. Webb, M.C. Boyer, Y. Yin, Debanjan Chowdhury, Y. He, T. Kondo, T. Takeuchi, H. Ikuta, E.W. Hudson, J.E. Hoffman and M.H. Hamidian, Density wave probes cuprate quantum phase transition, Phys. Rev. X 9, 021021 (2019). [arXiv] 

• A. Zhong, X. Shen, A. Kogar, L. Ye, C. Marks, Debanjan Chowdhury, T. Rohwer, B. Freelon, S. Weathersby, R. Li, J. Yang, J. Checkelsky, X. Wang and N. Gedik, Ultrafast manipulation of mirror domain walls in a charge density wave, Science Advances 4, eaau5501 (2018). [arXiv]

• Debanjan Chowdhury, Y. Werman, E. Berg and T. Senthil, Translationally invariant non-Fermi liquids with critical Fermi-surfaces: Solvable models, Phys. Rev. X 8, 031024 (2018). [arXiv]

• Debanjan Chowdhury*, B. Skinner* and P.A. Lee, Semiclassical theory of the tunneling anomaly in partially spin-polarized compressible quantum Hall states, Phys. Rev. B 97, 195114 (2018). [arXiv]

• A. Klein, S. Lederer, Debanjan Chowdhury, E. Berg and A.V. Chubukov, Dynamical susceptibility of a near-critical non-conserved order parameter and B2g Raman response in Fe-based superconductors, Phys. Rev. B 98, 041101(R) (2018). [arXiv] (Rapid Communication) 

• Debanjan Chowdhury*, B. Skinner* and P.A. Lee, Effect of magnetization on the tunneling anomaly in compressible quantum Hall states, Phys. Rev. Lett. 120, 266601 (2018). [arXiv]

• I. Sodemann, Debanjan Chowdhury and T. Senthil, Quantum oscillations in insulators with neutral Fermi-surfaces, Phys. Rev. B 97, 045152 (2018). [arXiv]

• A. Klein, S. Lederer, Debanjan Chowdhury, E. Berg and A.V. Chubukov, Dynamical susceptibility near a long-wavelength critical point with a non-conserved order parameter, Phys. Rev. B 97, 155115 (2018). [arXiv]

• Debanjan Chowdhury, I. Sodemann and T. Senthil, Mixed-valence insulators with neutral Fermi-surfaces, Nature Communications 9, 1766 (2018). [arXiv] 

• A.A. Patel, Debanjan Chowdhury, S. Sachdev and B. Swingle, Quantum butterfly effect in weakly interacting diffusive metals, Phys. Rev. X 7, 031047 (2017). [arXiv]

• Debanjan Chowdhury and B. Swingle, Onset of many-body chaos in the O(N) model, Phys. Rev. D 96, 065005 (2017). [arXiv]

• B. Swingle and Debanjan Chowdhury, Slow scrambling in disordered quantum systems, Phys. Rev. B 95, 060201(R) (2017). [arXiv] (Rapid Communication) (Editors' suggestion)

• A.A. Patel and Debanjan Chowdhury, Two dimensional spin liquids with Z2 topological order in an array of quantum wires, Phys. Rev. B 94, 195130 (2016). [arXiv]

• S. Sachdev and Debanjan Chowdhury, The novel metallic states of the cuprates: topological Fermi liquids and strange metals, Progress of Theoretical and Experimental Physics 12C102 (2016). (Special issue: "Nambu, A foreteller of Modern Physics III"). [arXiv]

• A.A. Patel, Debanjan Chowdhury, A. Allais and S. Sachdev, Confinement transition to density wave order in metallic doped spin liquids, Phys. Rev. B 93, 165139 (2016). [arXiv] 

• Y. Wang, Debanjan Chowdhury, and A.V. Chubukov, Fluctuating charge order in the cuprates: spatial anisotropy and feedback from superconductivity,  Phys. Rev. B 92, 161103(R) (2015). [arXiv] (Rapid Communication)

• Debanjan Chowdhury, J. Orenstein, S. Sachdev and T. Senthil, Phase transition beneath the superconducting dome in BaFe2(As1-xPx)2, Phys. Rev. B 92, 081113(R) (2015). [arXiv] (Rapid Communication)

• Debanjan Chowdhury and S. Sachdev, The enigma of the pseudogap phase of the cuprate superconductors, Invited chapter in the book "Quantum criticality in condensed matter" (World Scientific, ISBN: 978-981-4704-08-3). [arXiv] [Publisher]

• Debanjan Chowdhury and S. Sachdev, Higgs criticality in a two-dimensional metal, Phys. Rev. B 91, 115123 (2015). [arXiv]

• Debanjan Chowdhury and S. Sachdev, Density wave instabilities of fractionalized Fermi liquids, Phys. Rev. B 90, 245136 (2014). [arXiv]

• A. Allais, Debanjan Chowdhury and S. Sachdev, Connecting high-field quantum oscillations to zero-field electron spectral functions in the underdoped cuprates, Nature Communications 5, 5771 (2014). [arXiv]

• Debanjan Chowdhury and S. Sachdev, Feedback of superconducting fluctuations on charge order in the underdoped cuprates, Phys. Rev. B 90, 134516 (2014). [arXiv]

• M. Punk, Debanjan Chowdhury and S. Sachdev, Topological excitations and the dynamic structure factor of spin liquids on the kagome lattice, Nature Physics 10, 289-293 (2014). [arXiv]

• Debanjan Chowdhury, B. Swingle, E. Berg and S. Sachdev, Singularity of the London penetration depth at quantum critical points in superconductors, Phys. Rev. Lett. 111, 157004 (2013). [arXiv]

• Debanjan Chowdhury, S. Raju, S. Sachdev, A. Singh and P. Strack, Multipoint correlators of conformal field theories: implications for quantum critical transport, Phys. Rev. B 87, 085138 (2013). [arXiv]

• P. Mandal, Debanjan Chowdhury, S.S. Banerjee and T. Tamegai, High sensitivity differential Magneto-Optical imaging with a compact Faraday-modulator, Review of Scientific Instruments 83, 123906 (2012). [arXiv]

• D. Bergeron, Debanjan Chowdhury, M. Punk, S. Sachdev and A.-M.S. Tremblay, Breakdown of Fermi liquid behavior at the (π,π)=2kF spin-density wave quantum critical point: the case of electron-doped cuprates, Phys. Rev. B 86, 155123 (2012). [arXiv] (Editors' suggestion)   

• N. W. Goehring, P. K. Trong, J. S. Bois, Debanjan Chowdhury, E. M. Nicola, A. A. Hyman and S. W. Grill, Polarization of PAR Proteins by Advective Triggering of a Pattern-Forming system, Science 334, 6059, 1137-1141 (2011) (Editors' choice)

  [Highlighted in: Current Biology 22, 2, R58-R61 (2012), and, Developmental Cell 21, 6, 981-982 (2011).]

• Debanjan Chowdhury, E. Berg and S. Sachdev, Nematic order in the vicinity of a vortex in superconducting FeSe, Phys. Rev. B 84, 205113 (2011). [arXiv] 

• N. W. Goehring, Debanjan Chowdhury, A. A. Hyman and S. W. Grill, FRAP Analysis of Membrane-Associated Proteins: Lateral Diffusion and Membrane-Cytoplasmic Exchange, Biophysical Journal 99, 8, 2443-2452 (2010). 

• Debanjan Chowdhury and M.C. Cross, Synchronization of oscillators with long range power law interactions, Phys. Rev. E 82, 016205 (2010). [arXiv]

• Debanjan Chowdhury, U. Divakaran and A. Dutta, Adiabatic dynamics in passage across quantum critical lines and gapless phases, Phys. Rev. E 81, 012101 (2010). [arXiv]

• A. Garai, Debanjan Chowdhury, D. Chowdhury and T.V. Ramakrishnan, Stochastic kinetics of ribosomes: Single motor properties and collective behavior, Phys. Rev. E 80, 011908 (2009). [arXiv]

• Debanjan Chowdhury, Searching for targets on a model DNA: Effects of inter-segment hopping, detachment and re-attachment, Int. J Mod. Phys. C 20, 6, 817-830 (2009). [arXiv]