Image Gallery
1. Lab Shots Image #1System Components |  Image #2System on Bench |  Image #3Compressor |  Image #4Sample Chamber |  Image #5System Components 2 |  Image #6Three Systems |  Image #7User Interface |  Image #8Display on Compressor |  Image #9Lab Setup |  Image #10Overhead of Sample Chamber |  Image #1150mm side and 50mm top windows |  Image #12Replacing the Inner Window |  Image #13Sample Mounted Near Window |  Image #14Orientation of System on Table |  Image #15Sample Chamber |  Image #16Large Side Windows (50mm) |  Image #17Sample Chamber without lid |  Image #18Radiation Shield |  Image #19Radiation Lid removed |  Image #20Sample Chamber Mount | |
2. Sample Mount Configuration Pictures Image #21View from left, front or back |  Image #22View from front, left or right |  Image #23Sample mounted on top for low working distance |  Image #24Radiation side shield in place | |
3. Sample Mount Orientation Drawings Image #25Sample on top for low working distance applications |  Image #26Sample on bottom for 4 axis viewing |  Image #27Holder at 45 degrees for reflective viewing |  Image #28Sample extended for side low working distance | |
4. Line Drawings Image #29Exploded View of Sample Chamber |  Image #30Compressor Back |  Image #31Cryostat Control Unit |  Image #32Side View of Cryostat | |
5. Optical Configurations Image #3345 Degree Reflection |  Image #34Transmission and Scattering |  Image #35Overhead Microscope View |  Image #36Various View Angles | |
6. Sample Locations in Chamber Image #37Sample for Direct Reflection |  Image #38Sample at 45 Degrees |  Image #39Sample Near Inner Window |  Image #40Sample Near Outer Window | |
7. Top View of CryostatShows mounting options and optical access from overhead view  Image #41Normal configuration on table |  Image #4245 degree rotated windows |  Image #43Table position with 45 deg windows |
8. Thermally Damped Electrical Sample Mounts (TDESM) Image #44LCC28 Mounted |  Image #45LCC28 Socket and Chip |  Image #46Fully wired LCC28 |  Image #47Removing the Socket |  Image #48Chip with central thermal connector |  Image #49Underside of chip showing post |  Image #50Low working distance setup |  Image #51Outer Low Working Distance window |  Image #52CB12 on post |  Image #53CB12 top view |  Image #54CB12 circuit board and post |  Image #55Standard Sample Mount Post | |
9. Magneto-Optic option Image #56Assembly view |  Image #57Core of MO subsystem |  Image #58View of pole tips with central lenses |  Image #59Overhead view |  Image #60View without housings |  Image #61Radiation Shield with internal mounting flange |  Image #62MO Power Supply Unit |
10. Piezo positioner integration Image #63Cutaway view of Sample Chamber showing Piezo Pocket |  Image #64Piezo pocket with stages and flex link |  Image #65Exploded view of piezo assembly. On the left is the raised platform, On the right is the nano-positioning insert with stages. |  Image #66Piezos mounted above on platform |  Image #67Sample mount on Raised Platform (part of PR option) |
11. Window Options Image #68Standard 30mm side window housing |  Image #6950mm window housing |  Image #70100mm tall housing with 50mm windows |  Image #71Aluminized kapton window for X-Ray applications | |
12. RF and Fiber Optic Interfacing Image #72Quad RF connectors on base side plate |  Image #73Single RF in 30mm port |  Image #74Quad RF in 50mm port |  Image #75Fiber optic through 30mm port | |
13. Castles and Extended Options Image #76Round Castle for inside Room Temp Superconducting Magnet |  Image #77Tall castle for GMW magnets and side/top access |  Image #78Rectangular Castle for High Numerical Aperture |  Image #79Extended Option | |
14. Side PlateThe side plate if installed can be: blank, with gas tube, with 4x SMA, or with DC feedthroughs  Image #80Quad RF interface (SMA connectors) |  Image #81Micro D25 for added connections |  Image #82Gas tube into side panel |  Image #83Two side panel option | |
15. Custom Sample Mounts Image #84Rotary Transmission Mount |  Image #85Adjustable Right Angle Mount |  Image #86Adjustable Vertical and Horizontal Mount |  Image #87Dual Inline Package (DIP) Mount | |
17. Nanoscale WorkstationLarge Sample Platform with built in Cold Optical Breadboard  Image #88Cryostation with larger sample chamber |  Image #89Example of dual XYZ stack for fiber work |  Image #90Probe setup around sample mount |  Image #91Side view | |
18. Other Options Image #92Low Working Distance components |  Image #93High Temperature Stage - raises upper limit to 500K |  Image #94Recessed Objective - designed for Magneto-Optic module |  Image #95Flexible Link - various sizes are available | |
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