PlaneWave RC24 Ritchey Chretien f/6.5 (various versions available)

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PlaneWave RC24 Ritchey Chretien f/6.5 (various versions available)

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€ 81,800.00 Price excl. German VAT tax (19%): € 68,739.50
  • RC24 Astrograph, 24 inch Astrograph with Borosilicate Optics or Fused Silica Optics
  • modified to Ritchey-Chrétien, uses only a primary and secondary mirror with reflective coatings
  • 8" Dovetail, focal length 3.962 mm (f/6.5)
  • Delta T Ready, 3,5" Hedrick Focuser and EFA Kit separately available
Important note: This product is not available online. If you are interested, please send us a formal inquiry incl. contact data by email. We shall gladly provide a detailed offer.

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€ 81,800.00 Price excl. German VAT tax (19%): € 68,739.50

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Description

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PlaneWave RC24"

The RC24 is a 24 inch (0.61 m) f/6.5 Ritchey-Chrétien (RC) Astrograph telescope. The instrument weight is 240 lbs (109 kg) and comes standard with a back plate retaining ring ready to accept the focuser of your choice.

The PW24-RC in its native format (no field flattening lenses) uses only a primary and secondary mirror with reflective coatings. This can be useful when making observations primarily on-axis and wide field imaging is not a concern.

PlaneWave's CDK astrographs have become the telescopes of choice for universities, industry, and astrophotographers around the world, and now PlaneWave offers the PW-RC series to meet the custom needs of the scientific community. More about the optical design.

PlaneWave RC24 is available in various types of mirror material. Standard mirror material is borosilicate. The telescope is also available in fused silica optics.

Fused Silicia is a synthetic amorphous silica glass of the highest purity and one of the most transparent glasses made. The optical and thermal properties of fused silica are superior to other types of glass due to its purity. Its transmission and homogeneity exceed those of crystalline quartz without the problems of temperature instability inherent in the crystalline form. Fused Silica has a coefficient of thermal expansion six times lower than Borosilicate (Pyrex) glass, which means that as fused silica cools down, it preserves its shape to a high degree of accuracy. This translates into consistent optical performance and unchanging focus over temperature changes. With its high melting temperature ()~ 1.600 degree Celsius), a very low coefficient of thermal expansion and resistance to thermal shock, fused silica is the material of choice for professional observatories as well as various scientific applications.

Specifications:

OPTICAL SYSTEM

Aperture 24 inch (610 mm)
Focal Length 3962 mm (155.98 inch)
Focal ratio f/6.5
Central Obstruction 47% of the Primary Mirror Diameter
Back Focus from Mounting Surface 14.1 inch (358 mm)
Back Focus from Racked in Focuser 5.81 inch (148 mm)
Weight 240 lbs (108.9 kg)
OTA Length 56 inch (1,422 mm)
UpperCage Carbon Fiber Truss
Lower Cage Carbon Fiber Truss with Aluminum Light Shroud
OTA Width 31 inch (787 mm)
OTA Height 35 inch (889 mm)

 

SECONDARY MIRROR

Diameter 9.45 inch (240 mm)
Material Precision Annealed Borosilicate
Shape Hyperbolic
Coating Enhanced Aluminum - 96%

PRIMARY MIRROR

Optical Diameter 24 inch (610 mm)
Outer Diameter 24.5 inch (622 mm)
Shape Hyperbolic
Material Precision Annealed Borosilicate or Fused Silica
Coating Enhanced Aluminum - 96%


STANDARD FEATURES

Carbon Fiber Tube Design Minimizes thermal expansion which causes focus shift with changes in temperature
Dovetail expansion joint Allows for the difference in thermal expansion between carbon fiber and aluminum. The expansion joint allows the aluminum dovetail expand and contract without stressing the carbon fiber lower truss
Cooling Fans Three cooling fans blow air inside the back of the telescope. This helps the telescope to reach thermal equilibrium quickly. The fans are controlled by a computer if the optional Electronic Focus Accessory (EFA Kit) is purchased.
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