<?xml version='1.0' encoding='UTF-8'?><codeBook xmlns="ddi:codebook:2_5" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="ddi:codebook:2_5 https://ddialliance.org/Specification/DDI-Codebook/2.5/XMLSchema/codebook.xsd" version="2.5"><docDscr><citation><titlStmt><titl>Replication Data for: Electrically programmable terahertz diatomic metamolecules for chiral optical control</titl><IDNo agency="DOI">doi:10.21979/N9/ER0KRH</IDNo></titlStmt><distStmt><distrbtr source="archive">DR-NTU (Data)</distrbtr><distDate>2021-03-08</distDate></distStmt><verStmt source="archive"><version date="2021-03-08" type="RELEASED">1</version></verStmt><biblCit>Cong, Longqing; Singh, Ranjan, 2021, "Replication Data for: Electrically programmable terahertz diatomic metamolecules for chiral optical control", https://doi.org/10.21979/N9/ER0KRH, DR-NTU (Data), V1</biblCit></citation></docDscr><stdyDscr><citation><titlStmt><titl>Replication Data for: Electrically programmable terahertz diatomic metamolecules for chiral optical control</titl><IDNo agency="DOI">doi:10.21979/N9/ER0KRH</IDNo></titlStmt><rspStmt><AuthEnty affiliation="Nanyang Technological University">Cong, Longqing</AuthEnty><AuthEnty affiliation="Nanyang Technological University">Singh, Ranjan</AuthEnty></rspStmt><prodStmt><software>CST microwave studio</software><grantNo agency="Ministry of Education (MOE)">MOE2017-T2-1-110</grantNo><grantNo agency="Ministry of Education (MOE)">MOE2016-T3-1-006(S)</grantNo><grantNo agency="National Research Foundation (NRF)">MOE2016-T3-1-006(S)</grantNo><grantNo agency="Agence Nationale de la Recherche (ANR), France">NRF2016-NRF-ANR004</grantNo></prodStmt><distStmt><distrbtr source="archive">DR-NTU (Data)</distrbtr><contact affiliation="Nanyang Technological University">Singh, Ranjan</contact><depositr>Cong, Longqing</depositr><depDate>2021-03-08</depDate></distStmt><holdings URI="https://doi.org/10.21979/N9/ER0KRH"/></citation><stdyInfo><subject><keyword xml:lang="en">Physics</keyword><keyword>Physics</keyword><keyword>Terahertz metamaterials</keyword></subject><abstract>Optical chirality is central to many industrial photonic technologies including enantiomer identification, ellipsometry-based tomography and spin multiplexing in optical communications. However, a substantial chiral response requires a three-dimensional constituent, thereby making the morphology highly complex to realize structural reconfiguration. Moreover, an active reconfiguration demands intense dosage of external stimuli that pose a major limitation for on-chip integration. Here, we report a low bias, electrically programmable synthetic chiral paradigm with a remarkable reconfiguration among levorotatory, dextrorotatory, achiral, and racemic conformations. The switchable optical activity induced by the chiral conformations enables a transmission-type duplex spatial light modulator for terahertz single pixel imaging. The prototype delivers a new strategy towards reconfigurable stereoselective photonic applications, and opens up avenues for on-chip programmable chiral devices with tremendous applications in biology, medicine, chemistry, and photonics.</abstract><sumDscr><dataKind>Research data</dataKind></sumDscr></stdyInfo><method><dataColl><sources/></dataColl><anlyInfo/></method><dataAccs><setAvail/><useStmt/></dataAccs><othrStdyMat><relPubl><citation><titlStmt><IDNo agency="doi">10.34133/2019/7084251</IDNo></titlStmt><biblCit>Cong, L., Pitchappa, P., Wang, N., &amp; Singh, R. (2019). Electrically programmable terahertz diatomic metamolecules for chiral optical control. Research, 2019, 7084251-.</biblCit></citation><ExtLink URI="https://spj.sciencemag.org/journals/research/2019/7084251/"/></relPubl><relPubl><citation><titlStmt><IDNo agency="handle">ht10356/141645</IDNo></titlStmt><biblCit>Cong, L., Pitchappa, P., Wang, N., &amp; Singh, R. (2019). Electrically programmable terahertz diatomic metamolecules for chiral optical control. Research, 2019, 7084251-.</biblCit></citation><ExtLink URI="https://hdl.handle.net/10356/141645"/></relPubl></othrStdyMat></stdyDscr><otherMat ID="f59592" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59592" level="datafile"><labl>Chirality_Science partner journal_5.pdf</labl><txt>Manuscript file</txt><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/pdf</notes></otherMat><otherMat ID="f59640" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59640" level="datafile"><labl>Fig.2-3-4.opj</labl><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/octet-stream</notes></otherMat><otherMat ID="f59641" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59641" level="datafile"><labl>Fig. 5.opj</labl><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/octet-stream</notes></otherMat><otherMat ID="f59639" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59639" level="datafile"><labl>Fig. 6.opj</labl><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/octet-stream</notes></otherMat><otherMat ID="f59634" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59634" level="datafile"><labl>Figure.rar</labl><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">application/x-rar-compressed</notes></otherMat><otherMat ID="f59642" URI="https://researchdata.ntu.edu.sg/api/access/datafile/59642" level="datafile"><labl>readme.txt</labl><notes level="file" type="DATAVERSE:CONTENTTYPE" subject="Content/MIME Type">text/plain</notes></otherMat></codeBook>