HASHIMURA Junji | Optical System Operations, Minolta Co., Ltd.
スポンサーリンク
概要
関連著者
-
Ueda H
Optics Technology Division Takatsuki Laboratory Minolta Co. Ltd.
-
HASHIMURA Junji
Optical System Operations, Minolta Co., Ltd.
-
Hashimura Junji
Optical System Operations Minolta Co. Ltd.
-
Haga Hiroko
Division Of Clinical Chemistry Niigata Cancer Center Hospital
-
Hatano H
Yakult Central Institute For Microbiological Research
-
Hatano Hiroshi
Optics Technology Division Takatsuki Laboratory Minolta Co. Ltd.
-
HATANO Hiroshi
Optics Technology Division, Takatsuki Laboratory, Minolta Co., Ltd.
-
SAKATA Tadafumi
Optics Technology Division, Takatsuki Laboratory, Minolta Co., Ltd.
-
OGURA Kazuyuki
Optics Technology Division, Takatsuki Laboratory, Minolta Co., Ltd.
-
UEDA Hiroaki
Optics Technology Division, Takatsuki Laboratory, Minolta Co., Ltd.
-
TAKADA Kyu
Takatsuki Laboratory, Minolta Co., Ltd.
-
HATANO Hiroshi
Takatsuki Laboratory, Minolta Co., Ltd.
-
MUSHIAKE Nobuo
Optical System Operations, Minolta Co., Ltd.
-
UEDA Hiroaki
Takatsuki Laboratory, Minolta Co., Ltd.
-
Kuiseko Manami
Engineering Division, Optical System Center, Minolta Co., Ltd.
-
Ojima Seishi
Optics Technology Division, Takatsuki Lab., Minolta Co., Ltd.
-
Ueda Hiroaki
Optics Technology Division Takatsuki Laboratory Minolta Co. Ltd.
-
Takada Kyu
Takatsuki Laboratory Minolta Co. Ltd.
-
Ojima S
Minolta Co. Ltd. Osaka Jpn
-
Ojima Seishi
Optics Technology Division Minolta Co. Ltd.
-
Kuiseko Manami
Engineering Division Optical System Center Minolta Co. Ltd.
-
Mushiake Nobuo
Optical System Operations Minolta Co. Ltd.
-
Ogura Kazuyuki
Optics Technology Division Takatsuki Laboratory Minolta Co. Ltd.
-
Ogura Kazuyuki
Optical R&d Center Konica Minolta Opto Inc.
-
Sakata Tadafumi
Optics Technology Division Takatsuki Laboratory Minolta Co. Ltd.
-
Hatano Hiroshi
Optical R&d Center Konica Minolta Opto Inc.
-
Ueda Hiroaki
Optics Technology Division Minolta Co. Ltd.
著作論文
- Objective Lens for Blue Laser Optical Pickup with Numerical Aperture of 0.9
- Near-field Optical Data Storage Using a Plano-Convex Solid Immersion Mirror with a Small Aperture