2. 4 meter 3 mirror anastigmat telescope utilizing the nro telescope components

2.4 meter 3 mirror anastigmat telescope utilizing the NRO telescope components.

Four fold dichroic multiplexing optimizes the very large field of view to maximize the scientific return.

Each array of detectors has two filters and two grisms to provide 8 photometric bands.

WNEW can implement all of the WFIRST DRM2 programs in less time with twice as many photometric bands.

Survey of 3400 sq. degrees to ABmag=26

Monitor >2 sq. degrees for J=20.5 star with S/N=100 for 250 total days.

WNEW easily meets all of the WFIRST DRM requirements in far less time than WFIRST.

Very deep imaging in 4 fields of 1 square degree for 1 year.

The WNEW concept was developed during two funded studies as an origins probe. As such it has a very mature design.

Four focal planes utilizing 16 H4RG detectors (4kx4k) each.

In drift away or L2 orbit the mirrors

WNEW provides a greatly enhanced platform for carrying out the proposed WFIRST science program at higher sensitivity, in less time and with twice as many photometric bands.

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2. 4 meter 3 mirror anastigmat telescope utilizing the nro telescope components

2.4 meter 3 mirror anastigmat telescope utilizing the NRO telescope components.

2.4 meter 3 mirror anastigmat telescope utilizing the NRO telescope components.

Dichroic splitting of the optical paths to produce 4 fields of view, each of which images 0.25 sq. degrees.

WNEW contains 8 filters in two sets of four that can be viewed simultaneously.

The plate scale is 0.11” per pixel.

WNEW also contains 8 grisms for low resolution spectroscopy

Four fold dichroic multiplexing optimizes the very large field of view to maximize the scientific return.

Four fold dichroic multiplexing optimizes the very large field of view to maximize the scientific return.

WNEW is based on a previously funded Origins Probe study, the Galaxy Evolution Probe, with a very well studied and mature design.

WNEW achieves all of the WFIRST DRM science in approximately 1/3 of the time in twice as many filters.

The WNEW capabilities enable science significantly beyond the scope of WFIRST.

Each array of detectors has two filters and two grisms to provide 8 photometric bands.

Each array of detectors has two filters and two grisms to provide 8 photometric bands.

Each dichroic assembly has two dichroics.

WNEW can implement all of the WFIRST DRM2 programs in less time with twice as many photometric bands.

WNEW can implement all of the WFIRST DRM2 programs in less time with twice as many photometric bands.

The 8 WNEW photometric bands greatly enhances the scientific productivity of the WFIRST DRM2 programs.

The reduced time to implement the DRM2 programs provides extra time for innovative programs not envisioned for WFIRST.

Survey of 3400 sq. degrees to ABmag=26

Survey of 3400 sq. degrees to ABmag=26

Survey of 3400 sq.deg R=600 ABmag=22.5 per pixel

Survey of Gal. Plane 1240 sq. deg. ABmag =25.1

Monitor >2 sq. degrees for J=20.5 star with S/N=100 for 250 total days.

Monitor >2 sq. degrees for J=20.5 star with S/N=100 for 250 total days.

Cadence < 15 Minutes

Time for WNEW to reach S/N=100 for J=20.5 in 4 filters is 224 seconds = 3.75 minutes.

Better than 0.4” resolution

WNEW has 0.11” pixels

Automatic color information in at least 4 bands

WNEW easily meets all of the WFIRST DRM requirements in far less time than WFIRST.

WNEW easily meets all of the WFIRST DRM requirements in far less time than WFIRST.

WNEW easily meets all of the WFIRST DRM requirements in twice as many filters than WFIRST

WNEW can exceed all of the WFIRST DRM requirements and still have time for additional science goals.

Very deep imaging in 4 fields of 1 square degree for 1 year.

Very deep imaging in 4 fields of 1 square degree for 1 year.

Fields separated by ~90 degrees on sky

4000 second integrations

8 integrations to cover 1 sq. degree in all filters

223 integrations at each position in one year with 10% overhead

The WNEW concept was developed during two funded studies as an origins probe. As such it has a very mature design.

The WNEW concept was developed during two funded studies as an origins probe. As such it has a very mature design.

WNEW simplifies the original concept by retaining only infrared bands and restricting the focal plane to a single detector type.

Many components already have preliminary or in some cases a mature design.

Four focal planes utilizing 16 H4RG detectors (4kx4k) each.

Four focal planes utilizing 16 H4RG detectors (4kx4k) each.

In drift away or L2 orbit the mirrors

In drift away or L2 orbit the mirrors

instrument and detector systems are

radiatively cooled with no cryogenics

required.

Data transmission requires only 5 hours

of DSN reception per day on a moderate size receiver equivalent to the Univ. of AZ 12m dish on Kitt Peak.

WNEW provides a greatly enhanced platform for carrying out the proposed WFIRST science program at higher sensitivity, in less time and with twice as many photometric bands.

WNEW provides a greatly enhanced platform for carrying out the proposed WFIRST science program at higher sensitivity, in less time and with twice as many photometric bands.

WNEW provides new science capabilities to go beyond the proposed WFIRST program.

WNEW could start tomorrow.