Recently, there has been a renewed

Recently, there has been a renewed interest in the low concentration
Si solar PV systems [13–17]. The improvement in
performance is obtained by reducing the series resistance of the
solar cell by using commercial techniques like electrodeposition of
high aspect ratio front metal contacts [18]. Holography is a promising
optical tool that can advantageously be implemented in low
concentration photovoltaic systems [19,20]. Ludman [21], for the
firsttime proposed the use of holographic solar concentrator (holocon)
for PV power generation. Then after a lot of work has been
carried out for designing and analysis of concentrated photovoltaic
(CPV) technology [22–27].
In this communication dependence of wavelength selectivity of
holocons on depth of refractive index modulation has been studied.
Feasibility study of spectral characteristics oftypically recorded
three holocons of different depth of refractive index modulations
(n1 = 0.014, 0.018 and 0.024) have been performed with available
wavelength sources ( = 488 nm, 514.5 nm, 532 nm and 632.8 nm)
and are found to be in good agreement with theoretical predictions.
For chromatic characteristics,the three typically recorded holocons
were illuminated with a white light source and photographs of the
spectrum were taken and intensity distribution of different regions
of the spectrum was measured. In addition, for performance analysis
of chromatic characteristics oftheholocons, another experiment
has been conducted with commercially available Si solar cell and
voltage generated due to incidence of different colors of the spectrum
is also being reported.
Now a days dichromated gelatin [28], photopolymers [29],
PQ/PMMA [30] are being used extensively for recording holographic
optical elements, however due to ease of availability and
cost effectiveness of source and recording materials, we have
recorded holocons on commercially available high resolution silver
halide plate PFG-01 [31].