Infrared Absorption from Charge Density Waves in Magnetic Manganites

Calvani, P.; Marzi, Gianluca De; Dore, P.; Lupi, S.; Maselli, P.; d’Amore, Fabrizio; Gagliardi, Silvia; Cheong, Sang‐Wook

doi:10.1103/physrevlett.81.4504

Cited by 87 publications

(78 citation statements)

References 14 publications

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“…The different value of the gap compared to that of Ref. [13] could, at least in part, be due to different size of charge ordered domains in the material.…”

Section: Pacs Numbersmentioning

confidence: 81%

“…The different value of the gap compared to that of Ref. [13] could, at least in part, be due to different size of charge ordered domains in the material.In conclusion, the infrared reflection study of La 1/2 Ca 1/2 MnO 3 revealed the occurrence of a structural phase transition at T C , evidenced by appearance of additional phonon lines. The charge and orbital ordering below the antiferromagnetic transition temperature T N was found to drastically modify the carrier dynamics as charge density waves develop, leading to the creation of a gap in the excitation spectrum with magnitude of 2∆ 0 =(320 ± 15) cm −1 .…”

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confidence: 81%

Section: Pacs Numbersmentioning

confidence: 99%

“…The temperature, at which this gap opens, unambiguously identifies it as being due to the formation of a charge ordered state in La 1/2 Ca 1/2 MnO 3 because the antiferromagnetic transition temperature for the sample is T c N =163 K. The gap fully opens below 150 K, where it reaches the value of 2∆ 0 =(320 ± 15) cm −1 (Fig. 3).Earlier experimental study of the charge density waves in La 1/2 Ca 1/2 MnO 3 by optical transmission technique yielded the gap value of 710 cm −1 [13]. Even larger value of about 3600 cm −1 was obtained from a reflection studies by Kim et al[15].…”

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confidence: 99%

“…shows zero contribution to the dc conductivity. It signals opening of a gap, related to the formation of a charge density wave in charge ordered state due to realspace ordering of Mn 3+ and Mn 4+ ions [1,4,13].Theoretical consideration of a charge ordered system yields the following frequency dependence of conductivity [14]:where 2∆ is the magnitude of the charge gap and α = 1/2. Using this prediction we fitted the conductivity spectra at frequencies above the highest energy phonon (in the range 750 to 2800 cm −1 ) using 2∆ and α as parameters.…”

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confidence: 99%

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Charge and lattice dynamics of ordered state in La1/2Ca1/2MnO3: infrared reflection spectroscopy study

Litvinchuk¹,

Iliev²,

Pissas³

et al. 2004

Solid State Communications

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We report an infrared reflection spectroscopy study of La 1/2 Ca 1/2 MnO3 over a broad frequency range and temperature interval which covers the transitions from the high temperature paramagnetic to ferromagnetic and, upon further cooling, to antiferromagnetic phase. The structural phase transition, accompanied by a ferromagnetic ordering at TC =234 K, leads to enrichment of the phonon spectrum. A charge ordered antiferromagnetic insulating ground state develops below the Néel transition temperature TN =163 K. This is evidenced by the formation of charge density waves and opening of a gap with the magnitude of 2∆0 = (320 ± 15) cm −1 in the excitation spectrum. Several of the infrared active phonons are found to exhibit anomalous frequency softening. The experimental data suggest coexistence of ferromagnetic and antiferromangetic phases at low temperatures. PACS numbers:Manganite perovskites R 1−x A x MnO 3 (where R is a trivalent rare earth and A is a divalent alkaline rare earth) exhibit rich phase diagram and a variety of intriguing properties due the delicate interplay of spin, charge, lattice, and orbital degrees of freedom (Ref. [1,2,3] and references cited therein). Well defined anomalies of physical properties at commensurate carrier concentrations of x=N/8 (where N=1, 3, 4, 5, and 7) and x = L/3 (where L=1,2) were unambiguously established. Of particular interest is the phenomenon of charge and orbital ordering, most clearly pronounced for x=1/2 [4,5,6,7,8,9,10].In this communication we report the results of an infrared reflection study of La 1/2 Ca 1/2 MnO 3 over broad frequency range and at temperatures, covering the transitions from the high temperature paramagnetic to ferromagnetic and, upon further cooling, to antiferromagnetic phase. By making use of Kramers-Kronig analysis we obtained the spectral dependence of conductivity. Its analysis yields information on the evolution of phonons and electronic excitations as a function of temperature. We found that additional phonon modes appear in the spectra in the ferromagnetic phase, a fact which implies the occurrence of a structural phase transition. Upon further cooling the conductivity spectrum shows development of a gap, which signals the formation of a charge ordered state at low temperatures. At the same time a Drude-like component of the conductivity does not vanish completely and suggests the coexistence of a metallic and insulating phases.The measurements were performed on a dense ceramic pellet of La 1/2 Ca 1/2 MnO 3 , mechanically polished to optical quality. The material preparation technique is described in Ref. [3,9,11]. The samples were intensively characterized by the X-ray scattering, neutron diffraction, magnetization measurements, Raman scattering as well as Mössbauer spectroscopy (doped with 1% Sn or Fe). These measurements unambiguously identified the transition from the paramagnetic to ferromagnetic phase at T C =234 K, and further to antiferromagnetic phase at T c N =163 K (cooling cycle) or T h N =196 K (heating cycle), see The re...

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“…The different value of the gap compared to that of Ref. [13] could, at least in part, be due to different size of charge ordered domains in the material.…”

Section: Pacs Numbersmentioning

confidence: 81%

mentioning

confidence: 81%

Section: Pacs Numbersmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Charge and lattice dynamics of ordered state in La1/2Ca1/2MnO3: infrared reflection spectroscopy study

Litvinchuk¹,

Iliev²,

Pissas³

et al. 2004

Solid State Communications

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Electrodynamics of correlated electron matter

Dordevic¹,

Basov²

2006

Ann. Phys.

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Infrared spectroscopy has emerged as a premier experimental technique to probe enigmatic effects arising from strong correlations in solids. Here we report on recent advances in this area focusing on common patterns in correlated electron systems including transition metal oxides, intermetallics and organic conductors. All these materials are highly conducting substances but their electrodynamic response is profoundly different from the canonical Drude behavior observed in simple metals. These unconventional properties can be attributed in several cases to the formation of spin and/or charge ordered states, zero temperature phase transitions and strong coupling to bosonic modes

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