2017
DOI: 10.1103/physrevlett.118.167001
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Tracing the Electronic Pairing Glue in Unconventional Superconductors via Inelastic Scanning Tunneling Spectroscopy

Abstract: Scanning tunneling microscopy (STM) has been shown to be a powerful experimental probe to detect electronic excitations and further allows to deduce fingerprints of bosonic collective modes in superconductors. Here, we demonstrate that the inclusion of inelastic tunnel events is crucial for the interpretation of tunneling spectra of unconventional superconductors and allows to directly probe electronic and bosonic excitations via STM. We apply the formalism to the iron based superconductor LiFeAs. With the inc… Show more

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Cited by 14 publications
(30 citation statements)
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“…[30] Depending on the relative importance of elastic and inelastic processes involving the mode, one can expect a dip (for dominant elastic corrections to the self-energy) or a peak (for inelastic tunneling contributing an additional channel for conduction) in d 2 I/dV 2 . [31] Inferring the gap from the width of the dI/dV suppression, the relevant bosonic mode energy in this case is around 65 meV. This is close to the experimentally observed out-of-plane oxygen vibrations (∼55 meV) known to couple strongly to the carriers [32,33], and B1g and half-breathing modes in LCO found by neutron scattering in this energy range [34].…”
Section: Using the Equation (2) We Try To Fit The Differential Conduc...supporting
confidence: 79%
“…[30] Depending on the relative importance of elastic and inelastic processes involving the mode, one can expect a dip (for dominant elastic corrections to the self-energy) or a peak (for inelastic tunneling contributing an additional channel for conduction) in d 2 I/dV 2 . [31] Inferring the gap from the width of the dI/dV suppression, the relevant bosonic mode energy in this case is around 65 meV. This is close to the experimentally observed out-of-plane oxygen vibrations (∼55 meV) known to couple strongly to the carriers [32,33], and B1g and half-breathing modes in LCO found by neutron scattering in this energy range [34].…”
Section: Using the Equation (2) We Try To Fit The Differential Conduc...supporting
confidence: 79%
“…We have provided strong evidence for the presence of low ‐energy electron–boson interactions that affect the superconducting and normal state properties of the FeSC , and these effects can be simulated reasonably well by multi ‐band Eliashberg ‐theory (also including impurity scattering effects . We admit that we cannot rigorously prove that this is the only possible or even the best scenario to describe FeSCs at this time.…”
Section: Discussionmentioning
confidence: 92%
“…Similar estimates are obtained from several spectroscopies. For example, λnormalelblow0.8 was obtained from scanning tunneling microscopy data while λnormalelblow0.89 was obtained from optical data (once a realistic value of the unscreened plasma frequency is adopted).…”
Section: Weak Versus Strong Coupling In Fe ‐Based Superconductorsmentioning
confidence: 99%
“…Moreover, the electronic coupling to the bosonic mode can be described within the Eliashberg theory 20,21 with 𝛼 2 𝐹(𝜔) where 𝛼 is the coupling matrix element and 𝐹(𝜔) is the bosonic density of states, and this can be studied in the tunneling experiments. 𝛼 2 𝐹(𝜔) is intimately related to the second differentiation of the tunneling spectra [17][18][19][20][21][22] . Analyzing the measured tunneling spectra (Figs.…”
Section: Resultsmentioning
confidence: 99%