Coherent spin dynamics of solitons in the organic spin chain compounds(o-DMTTF)2X(X=Cl,Br)

Abstract: We studied the magnetic properties, in particular dynamics, of the correlated spins associated with natural defects in the organic spin chain compounds (o -DMTTF)2X (X = Br, Cl) by means of electron spin resonance (ESR) spectroscopy. Both materials exhibit spin-Peierls transitions at temperatures around 50 K [Foury-Leylekian et al., Phys. Rev. B 84, 195134 (2011)], which allow a separation of the properties of defects inside the chains from the magnetic response of the spin chains. Indeed, continuous wave ESR … Show more

“…In the following, we present CW-EPR data of (DMTTF) 2 I. The results on Br and Cl counter-anions have been reported previously [39,48]. Due to the conductive nature of o-(DMTTF) 2 X at high temperature, the EPR line is a dysonian at room temperature and when the temperature decreases, it progressively becomes a pure Lorentzian [49].…”

Electron Spin Resonance of Defects in Spin Chains—$$\hbox {o}-(\hbox {DMTTF})_2\hbox {X}$$: A Versatile System Behaving Like Molecular Magnet

“…In the following, we present CW-EPR data of (DMTTF) 2 I. The results on Br and Cl counter-anions have been reported previously [39,48]. Due to the conductive nature of o-(DMTTF) 2 X at high temperature, the EPR line is a dysonian at room temperature and when the temperature decreases, it progressively becomes a pure Lorentzian [49].…”

Electron Spin Resonance of Defects in Spin Chains—$$\hbox {o}-(\hbox {DMTTF})_2\hbox {X}$$: A Versatile System Behaving Like Molecular Magnet

“…In this paper we present an ESR investigation of (o -DMTTF) 2 X with X=Cl, Br and I from room temperature down to T = 5 K. ESR measurements on these systems have been reported [12,14], but with a weak density of data points and, as we will explain in the following, an incorrect analysis of the gap. First, in Sec.…”

“…As a consequence of this many-body spin- 1 2 soliton formation, the ground state is a doublet separated from the quasicontinnum by a gap [9]. Such a structure is of particular interest because its energy levels are comparable to single molecular magnet SMM like V15 [10][11][12] with unconventional quantum coherence properties [13,14] which make it an interesting potential qubit [15,16].…”

“…The (o -DMTTF) 2 X family compounds, with X = Cl, Br and I, have T SP ∼ 50 K higher than (TMTTF) 2 PF 6 (T SP = 19 K) which itself has the highest T SP of the (TMTTF) 2 X series. Moreover electron spin echo of the pined soliton has been reported [14]. (o -DMTTF) 2 X was first synthesized many decades ago [25] but intensive studies have been published recently [26] with the construction of the phase diagram [27,28], the solid solution with different counter anion [29] and the ESR study [12,14] The three systems (o -DMTTF) 2 X crystallize in the same space group I 42d (no.…”

“…Moreover electron spin echo of the pined soliton has been reported [14]. (o -DMTTF) 2 X was first synthesized many decades ago [25] but intensive studies have been published recently [26] with the construction of the phase diagram [27,28], the solid solution with different counter anion [29] and the ESR study [12,14] The three systems (o -DMTTF) 2 X crystallize in the same space group I 42d (no. 122) with cell parameters a = b = 16.93 Å, 17.09 Å, 17.40 Å and c = 7.040 Å, 7.058 Å, 7.098 Å for (o -DMTTF) 2 Cl, (o -DMTTF) 2 Br and (o -DMTTF) 2 I respectively.…”

Electron-spin interaction in the spin-Peierls phase of the organic spin chain ( o -DMTTF) 2X ( X =Cl, Br, I)

Unusually large hyperfine structure of the electron spin levels in an endohedral dimetallofullerene and its spin coherent properties