公开(公告)号：US20170362699A1

公开(公告)日：2017-12-21

申请号：US15627952

申请日：2017-06-20

Applicant: Axcelis Technologies, Inc.

Inventor： Dennis Elliott Kamenitsa ,  Richard J. Rzeszut ,  Fernando M. Silva ,  Neil K. Colvin

IPC: C23C16/12 ,  C01F7/48 ,  C01B7/13 ,  C23C16/448 ,  H01L21/306 ,  H01L21/02

CPC classification number: C23C16/12 ,  C01B7/135 ,  C01B31/36 ,  C01F7/48 ,  C23C14/48 ,  C23C16/448 ,  H01J37/3171 ,  H01J2237/022 ,  H01J2237/08 ,  H01J2237/31705 ,  H01L21/02019 ,  H01L21/02167 ,  H01L21/26506 ,  H01L21/306

Abstract: An ion implantation system is provided having an ion source configured to form an ion beam from aluminum iodide. A beamline assembly selectively transports the ion beam to an end station configured to accept the ion beam for implantation of aluminum ions into a workpiece. The ion source has a solid-state material source having aluminum iodide in a solid form. A solid source vaporizer vaporizes the aluminum iodide, defining gaseous aluminum iodide. An arc chamber forms a plasma from the gaseous aluminum iodide, where arc current from a power supply is configured to dissociate aluminum ions from the aluminum iodide. One or more extraction electrodes extract the ion beam from the arc chamber. A water vapor source further introduces water to react residual aluminum iodide to form hydroiodic acid, where the residual aluminum iodide and hydroiodic acid is evacuated from the system.

公开(公告)号：US10087520B2

公开(公告)日：2018-10-02

申请号：US15627952

申请日：2017-06-20

Applicant: Axcelis Technologies, Inc.

Inventor： Dennis Elliott Kamenitsa ,  Richard J. Rzeszut ,  Fernando M. Silva ,  Neil K. Colvin

IPC: C23C16/12 ,  C01B7/13 ,  C01B31/36 ,  C01F7/48 ,  C23C16/448 ,  H01L21/02 ,  H01L21/306 ,  C23C14/48 ,  H01J37/317 ,  H01L21/265

Abstract: An ion implantation system is provided having an ion source configured to form an ion beam from aluminum iodide. A beamline assembly selectively transports the ion beam to an end station configured to accept the ion beam for implantation of aluminum ions into a workpiece. The ion source has a solid-state material source having aluminum iodide in a solid form. A solid source vaporizer vaporizes the aluminum iodide, defining gaseous aluminum iodide. An arc chamber forms a plasma from the gaseous aluminum iodide, where arc current from a power supply is configured to dissociate aluminum ions from the aluminum iodide. One or more extraction electrodes extract the ion beam from the arc chamber. A water vapor source further introduces water to react residual aluminum iodide to form hydroiodic acid, where the residual aluminum iodide and hydroiodic acid is evacuated from the system.

公开(公告)号：US10774419B2

公开(公告)日：2020-09-15

申请号：US15627989

申请日：2017-06-20

Applicant: Axcelis Technologies, Inc.

Inventor： Dennis Elliott Kamenitsa ,  Richard J. Rzeszut ,  Fernando M. Silva ,  Jason R. Beringer ,  Xiangyang Wu

IPC: C23C16/12 ,  H01J37/317 ,  C23C14/48 ,  H01L21/04 ,  C01F7/48 ,  C23C16/448 ,  H01L21/02 ,  H01L21/306 ,  H01L21/265 ,  C01B32/956

Abstract: An ion implantation system is provided having an ion source configured to form an ion beam from aluminum iodide. A beamline assembly selectively transports the ion beam to an end station configured to accept the ion beam for implantation of aluminum ions into a workpiece. The ion source has a solid-state material source having aluminum iodide in a solid form. A solid source vaporizer vaporizes the aluminum iodide, defining gaseous aluminum iodide. An arc chamber forms a plasma from the gaseous aluminum iodide, where arc current from a power supply is configured to dissociate aluminum ions from the aluminum iodide. One or more extraction electrodes extract the ion beam from the arc chamber. A water vapor source further introduces water to react residual aluminum iodide to form hydroiodic acid, where the residual aluminum iodide and hydroiodic acid is evacuated from the system.

公开(公告)号：US20170362700A1

公开(公告)日：2017-12-21

申请号：US15627989

申请日：2017-06-20

Applicant: Axcelis Technologies, Inc.

Inventor： Dennis Elliott Kamenitsa ,  Richard J. Rzeszut ,  Fernando M. Silva ,  Jason R. Beringer ,  Xiangyang Wu

IPC: C23C16/12 ,  C01F7/48 ,  C01B7/13 ,  C23C16/448 ,  H01L21/306 ,  H01L21/02

Abstract: An ion implantation system is provided having an ion source configured to form an ion beam from aluminum iodide. A beamline assembly selectively transports the ion beam to an end station configured to accept the ion beam for implantation of aluminum ions into a workpiece. The ion source has a solid-state material source having aluminum iodide in a solid form. A solid source vaporizer vaporizes the aluminum iodide, defining gaseous aluminum iodide. An arc chamber forms a plasma from the gaseous aluminum iodide, where arc current from a power supply is configured to dissociate aluminum ions from the aluminum iodide. One or more extraction electrodes extract the ion beam from the arc chamber. A water vapor source further introduces water to react residual aluminum iodide to form hydroiodic acid, where the residual aluminum iodide and hydroiodic acid is evacuated from the system.