Add to ORKGWe combine transport, magnetization, and torque magnetometry measurements to investigate the electronic structure of ZrTe5, a system that is thought to be near a topological phase transition. At fields beyond the quantum limit, we observe a magnetization reversal from paramagnetic to diamagnetic response, which is characteristic of a Dirac semimetal. However, on increasing temperature across a corresponding transport anomaly, all signatures of this Dirac-like nature are completely suppressed, providing the first thermodynamic evidence of a possible topological phase transition in this compound. ZrTe5 may thus provide a rare, experimentally accessible example in which such phase transitions can be studied directly
Although the band topology of ZrGeSe has been studied via the magnetic torque technique, the electro...
The pentatellurides, HfTe5 and ZrTe5, have attracted the attention of the scientific community since...
The three-dimensional (3D) Dirac semimetal material of ZrTe5 provides a possible platform for studyi...
We combine transport, magnetization, and torque magnetometry measurements to investigate the electro...
Dirac semimetals have attracted extensive attentions in recent years. It has been theoretically sugg...
We present an infrared spectroscopy study of ZrTe5, which confirms a recent theoretical proposal th...
We report 125Te NMR measurements of the topological quantum material ZrTe5. Spin-lattice relaxation ...
The topological materials have attracted much attention for their unique electronic structure and pe...
The chiral magnetic effect is the generation of an electric current induced by chirality imbalance i...
We apply 125Te nuclear magnetic resonance (NMR) spectroscopy to investigate the Dirac semimetal ZrTe...
The complex electronic properties of ZrTe5 have recently stimulated in-depth investigations that ass...
The quantum limit (QL) of an electron liquid, realised at strong magnetic fields, has long been prop...
Dirac semimetals, e.g., ZrTe5 and HfTe5, have been widely investigated and have exhibited various ex...
Zirconium pentatelluride ZrTe5 is a topological semimetal. The presence of a temperature induced Lif...
The chiral magnetic effect is the generation of electric current induced by chirality imbalance in t...
Although the band topology of ZrGeSe has been studied via the magnetic torque technique, the electro...
The pentatellurides, HfTe5 and ZrTe5, have attracted the attention of the scientific community since...
The three-dimensional (3D) Dirac semimetal material of ZrTe5 provides a possible platform for studyi...
We combine transport, magnetization, and torque magnetometry measurements to investigate the electro...
Dirac semimetals have attracted extensive attentions in recent years. It has been theoretically sugg...
We present an infrared spectroscopy study of ZrTe5, which confirms a recent theoretical proposal th...
We report 125Te NMR measurements of the topological quantum material ZrTe5. Spin-lattice relaxation ...
The topological materials have attracted much attention for their unique electronic structure and pe...
The chiral magnetic effect is the generation of an electric current induced by chirality imbalance i...
We apply 125Te nuclear magnetic resonance (NMR) spectroscopy to investigate the Dirac semimetal ZrTe...
The complex electronic properties of ZrTe5 have recently stimulated in-depth investigations that ass...
The quantum limit (QL) of an electron liquid, realised at strong magnetic fields, has long been prop...
Dirac semimetals, e.g., ZrTe5 and HfTe5, have been widely investigated and have exhibited various ex...
Zirconium pentatelluride ZrTe5 is a topological semimetal. The presence of a temperature induced Lif...
The chiral magnetic effect is the generation of electric current induced by chirality imbalance in t...
Although the band topology of ZrGeSe has been studied via the magnetic torque technique, the electro...
The pentatellurides, HfTe5 and ZrTe5, have attracted the attention of the scientific community since...
The three-dimensional (3D) Dirac semimetal material of ZrTe5 provides a possible platform for studyi...