Add to ORKGX ray diffraction with synchrotron radiation has been used to study the phase transitions in compounds M5Ir4Si10 with M a rare earth metal. For M Er, Ho and Er0.84Lu0.16 phase transitions have been found towards a combined commensurate incommensurate state, that locks into a commensurate state at lower temperatures. For M Lu and Er0.66Lu0.34 there is a single transition towards a commensurate state. The results are interpreted in terms of commensurate structural transitions that induce incommensurate CDW
The physical properties of the single-crystalline samples of Lu2Ir3Si5 have been investigated by mag...
Ho2Ir3Si5 belongs to the family of three-dimensional (3D) R2Ir3Si5 (R = Lu, Er, Ho) compounds that e...
Lu5Ir4Si10 is an established charge-density-wave (CDW) compound (TCDW=83 K) which undergoes supercon...
X-ray diffraction with synchrotron radiation has been used to study the phase transitions in compou...
X-ray diffraction with synchrotron radiation has been used to study the phase transitions in compou...
We review the observation of novel charge density wave (CDW) transitions in ternary R<SUB>5</SUB>Ir<...
Er<SUB>5</SUB>Ir<SUB>4</SUB>Si<SUB>10</SUB> exhibits three phase transitions upon cooling below room...
Er5Ir4Si10 exhibits three phase transitions upon cooling below room temperature. At TCDW 151 K a ...
Rare earth compounds of the type RE5 T4 M10 (T=Rh, Ir and M=Si, Ge, Sn) display a variety of phase t...
The three-dimensional charge density wave (CDW) compound Lu$_2$Ir$_3$Si$_5$ undergoes a first-order ...
Rare earth compounds of the type R<SUB>5</SUB>T<SUB>4</SUB>M<SUB>10</SUB> (T=Rh, Ir and M=Si, Ge, Sn...
The first-order charge density wave (CDW) phase transition of Er$_2$Ir$_3$Si$_5$ is characterized by...
The Charge-density-wave (CDW) is a static modulation of the density of conduction electrons which is...
We report the observation of a strongly coupled first-order charge-density wave (CDW) transition in ...
We report the magnetic structure of the local moment magnetism in high-quality single crystals of th...
The physical properties of the single-crystalline samples of Lu2Ir3Si5 have been investigated by mag...
Ho2Ir3Si5 belongs to the family of three-dimensional (3D) R2Ir3Si5 (R = Lu, Er, Ho) compounds that e...
Lu5Ir4Si10 is an established charge-density-wave (CDW) compound (TCDW=83 K) which undergoes supercon...
X-ray diffraction with synchrotron radiation has been used to study the phase transitions in compou...
X-ray diffraction with synchrotron radiation has been used to study the phase transitions in compou...
We review the observation of novel charge density wave (CDW) transitions in ternary R<SUB>5</SUB>Ir<...
Er<SUB>5</SUB>Ir<SUB>4</SUB>Si<SUB>10</SUB> exhibits three phase transitions upon cooling below room...
Er5Ir4Si10 exhibits three phase transitions upon cooling below room temperature. At TCDW 151 K a ...
Rare earth compounds of the type RE5 T4 M10 (T=Rh, Ir and M=Si, Ge, Sn) display a variety of phase t...
The three-dimensional charge density wave (CDW) compound Lu$_2$Ir$_3$Si$_5$ undergoes a first-order ...
Rare earth compounds of the type R<SUB>5</SUB>T<SUB>4</SUB>M<SUB>10</SUB> (T=Rh, Ir and M=Si, Ge, Sn...
The first-order charge density wave (CDW) phase transition of Er$_2$Ir$_3$Si$_5$ is characterized by...
The Charge-density-wave (CDW) is a static modulation of the density of conduction electrons which is...
We report the observation of a strongly coupled first-order charge-density wave (CDW) transition in ...
We report the magnetic structure of the local moment magnetism in high-quality single crystals of th...
The physical properties of the single-crystalline samples of Lu2Ir3Si5 have been investigated by mag...
Ho2Ir3Si5 belongs to the family of three-dimensional (3D) R2Ir3Si5 (R = Lu, Er, Ho) compounds that e...
Lu5Ir4Si10 is an established charge-density-wave (CDW) compound (TCDW=83 K) which undergoes supercon...